Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: Identification of candidates involved in the trafficking of MMP2. (A) Scheme of the MMP2 RUSH construct. SS-Flag-MMP2-HA-SBP-eGFP was used as a reporter. Fluorescence images show HeLa cells expressing MMP2-SBP-eGFP counterstained against TGN46 (red). Without biotin, MMP2 is retained in the ER (0 min). It reaches the Golgi 15 min after biotin addition and is sorted into vesicles (arrowheads) at 30 and 45 min, respectively. Scale bars, 5 µm. (B) MS strategy to identify MMP2 interacting partners in the Golgi. HeLa cells expressing MMP2-SBP-eGFP or SS-SBP-eGFP were incubated for 20 min with biotin to enrich reporter proteins at the Golgi. After GFP IP, samples were analyzed using MS ( n = 3). (C) Volcano plot highlights significantly enriched MMP2 interactors in pink. 42 sorting-related candidates were found, among them TIMP2, a known inhibitor of MMP2, and NUCB1. Two-sample t test, false discovery rate = 0.3, minimum fold change = 0.5. (D) Fluorescence images of HeLa cells labeled with endogenous NUCB1 (green) and GM130 or TGN46 (red). Scale bars, 5 µm; zoom, 2 µm. (E) HEK 293T cells expressing SS-MMP2-SBP-eGFP or SS-SBP-eGFP were processed for GFP IP and WB analysis. (F) Semiquantitative analysis of the normalized NUCB1 to GFP signal from two independent experiments. Significance: one-sample t test. (G) His-tag coIP of recombinant rNUCB1-His. Endogenous MMP2 from HeLa Golgi membranes coimmunoprecipitated with rNUCB1-His but not rGFP-His. (H) Semiquantitative analysis of the MMP2 signal from three independent experiments. Bars, mean ± SD. Paired t test: *, P < 0.05; ***, P < 0.001.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Construct, Fluorescence, Expressing, Incubation, Labeling, Recombinant

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2-eGFP secretion and evaluation of CRISPR NUCB1-KO clones . (A) HeLa cells stably expressing SS-MMP2-eGFP were seeded on glass slides and incubated at 37°C for 3 d to evaluate MMP2-eGFP secretion. After fixation, cells were incubated with GFP antibody and Alexa Fluor 594. Confocal fluorescence images show colocalization of MMP2-eGFP and GFP antibody of nonpermeabilized cells, evidencing secretion of MMP2-eGFP to the extracellular space. Scale bars, 10 µm; zoom bar, 2 µm. (B and C) NUCB1-KO cells were generated using the CRISPR-Cas9 system with three different gRNAs and selection of single colonies. After puromycin selection, three NUCB1-KO clones were identified by WB (B) and later confirmed by immunofluorescence (C). *, unspecific band; KO, HeLa NUCB1-KO cells; CN, HeLa control. Semiquantitative analysis shows normalized NUCB1-to-β-actin signal.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: CRISPR, Clone Assay, Stable Transfection, Expressing, Incubation, Fluorescence, Generated, Selection, Immunofluorescence

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 is partially sorted in LyzC-positive secretory vesicles. HeLa cells expressing MMP2-eGFP were immunolabeled with a-Rab5, a-Rab7, or Rab11 antibodies (red). MMP2-eGFP–expressing cells were cotransfected with mCherry (mCh)-lysosomes or LyzC-mCherry to label lysosomes or LyzC-positive secretory vesicles, respectively. Rab6-GFP or Rab8-GFP constructs were cotransfected with MMP2-tagRFP. Images were acquired by confocal microscopy. White arrowheads point to distinct vesicles; magenta arrowheads point to colocalizing vesicles. Bars, 10 µm; zoom, 2 µm.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Immunolabeling, Construct, Confocal Microscopy

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: Protein purification and evaluation of the direct interaction between MMP2 and NUCB1. (A) Coomassie-stained SDS-PAGE for the evaluation of His-tag purified recombinant NUCB1-His (rNUCB1-His). (B) Anti-NUCB1 WB analysis of the elution fraction shown in line 4 from A. (C) WB analysis of purified His-SUMO-MMP2 using MMP2 antibody. (D) Recombinant His-SUMO-MMP2 (rHS-MMP2) was bioconjugated with Cy3 via maleimide labeling and subsequently analyzed by AUC. The lowest panel shows peak of sedimentation of rHS-MMP2 at 4.705 S. (E) AUC profile of rHis-SUMO-MMP2-Cy3 and NUCB1-His. The lowest panel shows a peak at 3.189 S, indicating a change in the sedimentation velocity associated to a direct interaction of NUCB1 and MMP2. (F) Coomassie-stained SDS-PAGE of purified His-tagged NUCB1 Ca 2+ binding mutant (rNUCB1mEFh1+2). (G) WB analysis of the elution fraction shown in line 4 of F using NUCB1 antibody. (H) CD measurement of rNUCB1-His and rNUCB1mEFh1+2-His under presence or absence of 1 mM Ca 2+ . rNUCB1-mEF1+2 molar ellipticity is lower compared with rNUCB1-His. Evaluation of the CD spectra using CONTIN showed an increase in rNUCB1-His α-helicity upon Ca 2+ addition (from 0.385 to 0.413) that was not observed in rNUCB1-mEFh1+2 (from 0.256 to 0.147). Instead, an increase in β-sheet content (from 0.151 to 0.322) was observed. These findings are in accordance with the results described by .

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Protein Purification, Staining, SDS Page, Purification, Recombinant, Labeling, Sedimentation, Binding Assay, Mutagenesis

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1-KO impairs the trafficking of MMP2. (A) Fluorescent images of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP with or without NUCB1-WT, counterstained against NUCB1 (red) and captured after 0, 15, 30, and 45 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (B) Cytoplasmic vesicle counts as described in A are plotted as number of vesicles per cell ( n ≥ 90 cells, median ± IQR of two independent experiments; ***, P < 0.001; n.s., not significant). (C) Confocal microscopy images of HeLa or NUCB1-KO cells expressing LyzC-SBP-eGFP and counterstained against NUCB1 (red) after 0, 20, 40, and 60 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (D) Cytoplasmic vesicle counts from C of two independent experiments ( n ≥ 42 cells, median ± IQR). (E) Secretion assay of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP or LyzC-SBP-EGFP and incubated with biotin for 45 or 60 min, respectively. WCL, whole-cell lysates. [SNs], 10×-concentrated supernatants. (F) Semiquantitative analysis from three independent experiments, one-sample t test. Bars, mean ± SD. (G) GFP-coIP of HeLa or NUCB1-KO cells expressing LyzC-eGFP, with or without NUCB1-WT. GFP-HA, negative control; CN, HeLa control; KO, NUCB1-KO. (H) Semiquantitative analysis of NUCB1 to GFP signal from three independent experiments. Bars, mean ± SD; paired t test.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Incubation, Confocal Microscopy, Negative Control

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 IG trafficking is exclusively dependent on Golgi-localized NUCB1, which also impairs IG trafficking of MT1-MMP. (A) HeLa or NUCB1-KO cells expressing SS-SBP-MMP2-eGFP alone or with a cytosolic variant of NUCB1 lacking its SS (NUCB1-cyto) were fixed after 0, 15, 30, and 45 min of biotin incubation. Maximal Z-projection analysis of confocal microscopy images shows no differences in MMP2 trafficking of NUCB1-cyto transfected cells compared with NUCB1-KO cells (arrowheads). Scale bars, 10 µm. (B) Quantification of cytoplasmic MMP2 vesicles from cells in A. n > 18 cells; mean ± SD; two independent experiments. Significant differences with P < 0.05 were analyzed via nonparametric Kruskal–Wallis test with Dunn’s multiple comparison, **, P < 0.01. (C) mCherry-tagged MT1-MMP RUSH construct (SS-MT1-MMP-SBP-mCh). Cyto, cytosolic domain. (D) Confocal fluorescence images of HeLa or NUCB1-KO cells transfected with or without NUCB1-WT and fixed after 30, 60, and 90 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (E) Quantification of cytoplasmic vesicles observed in A. n = 24 cells; two independent experiments; median ± IQR; ***, P < 0.001; n.s., non-significant. (F) Cell surface biotinylation assay coupled with streptavidin pull-down. HeLa or NUCB1-KO cells were untreated (time 0) or incubated with sulfo-NHS-Biotin for 90 min to label cell surface proteins, and then pulled down with Neutravidin beads. WB analysis shows a reduction in the amount of endogenous active MT1-MMP at the surface of NUCB1-KO cells compared with HeLa control. β-1 integrin was used as loading control. (G) Semiquantitative analysis of surface labeled active MT1-MMP from F represented as % of normalized MT1-MMP intensity to β-1 integrin in comparison to control (100%). n = 3 independent experiments; one-sample t test, **, P < 0.01. Bars, mean ± SD.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Variant Assay, Incubation, Confocal Microscopy, Transfection, Construct, Fluorescence, Cell Surface Biotinylation Assay, Labeling

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 does not affect MMP2 activation nor trafficking of other cargoes such as HRP and Cathepsin D. (A) Zymography assay of HeLa cells expressing SS-MMP2-SBP-eGFP. Untsf HeLa, Hela without transfection; [SN], 10×-concentrated supernatants; CN, HeLa control; KO, NUCB1-KO. (B) Semiquantitative analysis of experiment shown in A. n = 3 independent experiments; one-sample t test; n.s., nonsignificant. (C) Whole-cell lysates of HeLa and NUCB1-KO cells stably expressing SS-HRP-FLAG were analyzed by anti-FLAG, anti-NUCB1, and anti-β-actin WB. SS-HRP-FLAG is expressed in HeLa and NUCB1-KO cells to similar levels. (D) Cell culture supernatants of cells described in C were analyzed for HRP activity by chemiluminescence after 4-h secretion. BFA served as a positive control for perturbed secretion and was added for 1 h before HRP secretion analysis. No significant differences were observed between NUCB1-KO and HeLa control cells. *, P < 0.05. (E) HeLa or NUCB1-KO cells expressing SS-SBP-eGFP-Cathepsin D were fixed 20, 40, and 60 min after biotin addition. Representative maximum Z-projection images show Cathepsin D trafficking from Golgi to cytoplasmic vesicles (arrowheads). Scale bars, 10 µm. (F) Quantification of cytoplasmic Cathepsin D vesicles from cells shown in E. n > 30 HeLa and NUCB1-KO cells per time point; two independent experiments; mean ± SD. Statistical analysis was performed using a nonparametric Kruskal–Wallis test with Dunn’s multiple comparison test. No significant differences with P < 0.05 were detected.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Activation Assay, Zymography, Expressing, Transfection, Stable Transfection, Cell Culture, Activity Assay, Positive Control

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 trafficking delay occurs at the cis-Golgi. (A) Fluorescence images of HeLa or NUCB1-KO cells transiently expressing SS-MMP2-SBP-eGFP, fixed at 2.5, 5, and 7.5 min after biotin addition, and counterstained against ERGIC53 (red). Scale bars, 5 µm. (B) Average PC per time point. (C) Colocalization of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP with GM130 (red) after 10, 15, 20, and 25 min of biotin incubation. Scale bars, 5 µm. (D) Average PC illustrates decreased colocalization at 10, 15, and 20 min after biotin addition. (E) Colocalization of SS-MMP2-SBP-eGFP with TGN46 (red) expressed in HeLa or NUCB1-KO cells at 20, 25, 30, 35, and 40 min after biotin addition. Scale bars, 5 µm. (F) Average PC shows that MMP2 is equally colocalizing with TGN46 in HeLa and NUCB1-KO cells upon arrival at the TGN. Error bars represent SD; *, P < 0.05; **, P < 0.01; ***, P < 0.001; n.s., not significant.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Fluorescence, Expressing, Incubation

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 trafficking is exclusively delayed at the Golgi in living cells. (A) HeLa or NUCB1-KO cells expressing SS-SBP-MMP2-eGFP were analyzed by live-cell wide-field microscopy. Representative images of MMP2 trafficking after 0, 30, 35, and 40 min of biotin incubation. Images were acquired in 1-min frames for each analyzed cell. Arrowheads, cytoplasmic MMP2 vesicles. Scale bars, 10 µm. (B) Quantification of cytoplasmic MMP2 vesicles per frame from cells shown in A. n.s., nonsignificant. *, P < 0.05; **, P < 0.01. (C) Schematic representation of ER–Golgi cargo transport analysis, measured as normalized Golgi area over time in cells shown in A. (D) Normalized Golgi area for each time point (median ± IQR). A reduced Golgi compaction was observed in the time range 15–23 min in NUCB1-KO cells compared with HeLa control. *, P < 0.05. (E and F) HeLa or NUCB1-KO cells ( n = 11) expressing SS-SBP-MMP2-eGFP fixed without biotin addition and immunostained for ER exit site marker Sec16 (red). Scale bar, 10 µm; zoom, 2 µm. Retained MMP2 in the ER partially colocalized with Sec16 in both control and NUCB1-KO cells to the same extent (F). Magenta arrowheads, MMP2 structures that colocalized with ER exit sites; white arrowheads, ER exit sites. t test: P < 0.05.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Microscopy, Incubation, Marker

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 EFhs are essential for Golgi trafficking of MMP2. (A) Protein alignment of human NUCB1 (Q02818, aa 241–400), CaM (P0DP23), Calumenin (O43852), and Cab45 (Q9BRK5). Pink boxes, NUCB1 EFhs. (B) NUCB1 adapted PDB protein model (accession no. 1SNL ); NUCB1 EFhs, cyan; NUCB1-WT, EFhs with first and last amino acid of the domain in dark blue; NUCB1-mEFh1+2, amino acid substitutions E264Q and E316Q in pink. (C) CoIP of MMP2-eGFP transiently expressed in NUCB1-KO cells transfected with NUCB1-WT or NUCB1-mEFh1+2. n = 4 biological replicates. (D) Semiquantitative analysis of NUCB1 signal per sample normalized to the one of NUCB1-KO cells reexpressing NUCB1-WT. Bars, mean ± SD; one-sample t test. (E) Confocal fluorescence images of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP and cotransfected with or without NUCB1-WT or NUCB1-mEFh1+2. After 15, 30, and 45 min of biotin incubation, cells were fixed and costained with NUCB1 antibody (red). Scale bars, 5 µm. Arrowheads, cytoplasmic vesicles. (F) Quantification of cytoplasmic vesicles as in E from two independent experiments (median ± IQR), n ≥ 19 cells. *, P < 0.05; **, P < 0.01; ***, P < 0.001; ****, P < 0.0001.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Transfection, Fluorescence, Expressing, Incubation

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 depletion impairs ECM invasion and degradation in MDA-MB-231 cells. (A) Expression levels of NUCB1 after siRNA-mediated silencing ( n = 3 independent experiments: R1, R2, and R3). *, unspecific band. (B) Semiquantitative analysis of normalized NUCB1 signal from A in silenced cells compared with control. Bars, mean ± SD. (C) Quantitative PCR analysis of relative MMP2 expression in siRNA-treated MDA-MB-231 cells ( n = 3 independent experiments, one-sample t test). (D) Secretion assay of endogenous MMP2 in MDA-MB-231 cells. [SN], 20×-concentrated supernatant; WCL, whole cell lysates. (E) Semiquantitative analysis of three independent experiments. Bars, mean ± SD. Significance, one-sample t test. (F and G) Representative pictures of Matrigel-coated Transwell invasion (F) or gelatin degradation (G) experiments. Scale bars, 150 µm. (H and I) Quantification of the number of migrating cells (H) and degraded gelatin area (I). Both invasion and degradation were reduced in siNUCB1 cells. Data: median ± IQR; n = 3 independent experiments. Paired t test: *, P < 0.05; **, P < 0.01; n.s., not significant.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Real-time Polymerase Chain Reaction

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: Identification of candidates involved in the trafficking of MMP2. (A) Scheme of the MMP2 RUSH construct. SS-Flag-MMP2-HA-SBP-eGFP was used as a reporter. Fluorescence images show HeLa cells expressing MMP2-SBP-eGFP counterstained against TGN46 (red). Without biotin, MMP2 is retained in the ER (0 min). It reaches the Golgi 15 min after biotin addition and is sorted into vesicles (arrowheads) at 30 and 45 min, respectively. Scale bars, 5 µm. (B) MS strategy to identify MMP2 interacting partners in the Golgi. HeLa cells expressing MMP2-SBP-eGFP or SS-SBP-eGFP were incubated for 20 min with biotin to enrich reporter proteins at the Golgi. After GFP IP, samples were analyzed using MS ( n = 3). (C) Volcano plot highlights significantly enriched MMP2 interactors in pink. 42 sorting-related candidates were found, among them TIMP2, a known inhibitor of MMP2, and NUCB1. Two-sample t test, false discovery rate = 0.3, minimum fold change = 0.5. (D) Fluorescence images of HeLa cells labeled with endogenous NUCB1 (green) and GM130 or TGN46 (red). Scale bars, 5 µm; zoom, 2 µm. (E) HEK 293T cells expressing SS-MMP2-SBP-eGFP or SS-SBP-eGFP were processed for GFP IP and WB analysis. (F) Semiquantitative analysis of the normalized NUCB1 to GFP signal from two independent experiments. Significance: one-sample t test. (G) His-tag coIP of recombinant rNUCB1-His. Endogenous MMP2 from HeLa Golgi membranes coimmunoprecipitated with rNUCB1-His but not rGFP-His. (H) Semiquantitative analysis of the MMP2 signal from three independent experiments. Bars, mean ± SD. Paired t test: *, P < 0.05; ***, P < 0.001.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Construct, Fluorescence, Expressing, Incubation, Labeling, Recombinant

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2-eGFP secretion and evaluation of CRISPR NUCB1-KO clones . (A) HeLa cells stably expressing SS-MMP2-eGFP were seeded on glass slides and incubated at 37°C for 3 d to evaluate MMP2-eGFP secretion. After fixation, cells were incubated with GFP antibody and Alexa Fluor 594. Confocal fluorescence images show colocalization of MMP2-eGFP and GFP antibody of nonpermeabilized cells, evidencing secretion of MMP2-eGFP to the extracellular space. Scale bars, 10 µm; zoom bar, 2 µm. (B and C) NUCB1-KO cells were generated using the CRISPR-Cas9 system with three different gRNAs and selection of single colonies. After puromycin selection, three NUCB1-KO clones were identified by WB (B) and later confirmed by immunofluorescence (C). *, unspecific band; KO, HeLa NUCB1-KO cells; CN, HeLa control. Semiquantitative analysis shows normalized NUCB1-to-β-actin signal.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: CRISPR, Clone Assay, Stable Transfection, Expressing, Incubation, Fluorescence, Generated, Selection, Immunofluorescence

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 is partially sorted in LyzC-positive secretory vesicles. HeLa cells expressing MMP2-eGFP were immunolabeled with a-Rab5, a-Rab7, or Rab11 antibodies (red). MMP2-eGFP–expressing cells were cotransfected with mCherry (mCh)-lysosomes or LyzC-mCherry to label lysosomes or LyzC-positive secretory vesicles, respectively. Rab6-GFP or Rab8-GFP constructs were cotransfected with MMP2-tagRFP. Images were acquired by confocal microscopy. White arrowheads point to distinct vesicles; magenta arrowheads point to colocalizing vesicles. Bars, 10 µm; zoom, 2 µm.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Immunolabeling, Construct, Confocal Microscopy

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: Protein purification and evaluation of the direct interaction between MMP2 and NUCB1. (A) Coomassie-stained SDS-PAGE for the evaluation of His-tag purified recombinant NUCB1-His (rNUCB1-His). (B) Anti-NUCB1 WB analysis of the elution fraction shown in line 4 from A. (C) WB analysis of purified His-SUMO-MMP2 using MMP2 antibody. (D) Recombinant His-SUMO-MMP2 (rHS-MMP2) was bioconjugated with Cy3 via maleimide labeling and subsequently analyzed by AUC. The lowest panel shows peak of sedimentation of rHS-MMP2 at 4.705 S. (E) AUC profile of rHis-SUMO-MMP2-Cy3 and NUCB1-His. The lowest panel shows a peak at 3.189 S, indicating a change in the sedimentation velocity associated to a direct interaction of NUCB1 and MMP2. (F) Coomassie-stained SDS-PAGE of purified His-tagged NUCB1 Ca 2+ binding mutant (rNUCB1mEFh1+2). (G) WB analysis of the elution fraction shown in line 4 of F using NUCB1 antibody. (H) CD measurement of rNUCB1-His and rNUCB1mEFh1+2-His under presence or absence of 1 mM Ca 2+ . rNUCB1-mEF1+2 molar ellipticity is lower compared with rNUCB1-His. Evaluation of the CD spectra using CONTIN showed an increase in rNUCB1-His α-helicity upon Ca 2+ addition (from 0.385 to 0.413) that was not observed in rNUCB1-mEFh1+2 (from 0.256 to 0.147). Instead, an increase in β-sheet content (from 0.151 to 0.322) was observed. These findings are in accordance with the results described by .

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Protein Purification, Staining, SDS Page, Purification, Recombinant, Labeling, Sedimentation, Binding Assay, Mutagenesis

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1-KO impairs the trafficking of MMP2. (A) Fluorescent images of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP with or without NUCB1-WT, counterstained against NUCB1 (red) and captured after 0, 15, 30, and 45 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (B) Cytoplasmic vesicle counts as described in A are plotted as number of vesicles per cell ( n ≥ 90 cells, median ± IQR of two independent experiments; ***, P < 0.001; n.s., not significant). (C) Confocal microscopy images of HeLa or NUCB1-KO cells expressing LyzC-SBP-eGFP and counterstained against NUCB1 (red) after 0, 20, 40, and 60 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (D) Cytoplasmic vesicle counts from C of two independent experiments ( n ≥ 42 cells, median ± IQR). (E) Secretion assay of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP or LyzC-SBP-EGFP and incubated with biotin for 45 or 60 min, respectively. WCL, whole-cell lysates. [SNs], 10×-concentrated supernatants. (F) Semiquantitative analysis from three independent experiments, one-sample t test. Bars, mean ± SD. (G) GFP-coIP of HeLa or NUCB1-KO cells expressing LyzC-eGFP, with or without NUCB1-WT. GFP-HA, negative control; CN, HeLa control; KO, NUCB1-KO. (H) Semiquantitative analysis of NUCB1 to GFP signal from three independent experiments. Bars, mean ± SD; paired t test.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Incubation, Confocal Microscopy, Negative Control

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 IG trafficking is exclusively dependent on Golgi-localized NUCB1, which also impairs IG trafficking of MT1-MMP. (A) HeLa or NUCB1-KO cells expressing SS-SBP-MMP2-eGFP alone or with a cytosolic variant of NUCB1 lacking its SS (NUCB1-cyto) were fixed after 0, 15, 30, and 45 min of biotin incubation. Maximal Z-projection analysis of confocal microscopy images shows no differences in MMP2 trafficking of NUCB1-cyto transfected cells compared with NUCB1-KO cells (arrowheads). Scale bars, 10 µm. (B) Quantification of cytoplasmic MMP2 vesicles from cells in A. n > 18 cells; mean ± SD; two independent experiments. Significant differences with P < 0.05 were analyzed via nonparametric Kruskal–Wallis test with Dunn’s multiple comparison, **, P < 0.01. (C) mCherry-tagged MT1-MMP RUSH construct (SS-MT1-MMP-SBP-mCh). Cyto, cytosolic domain. (D) Confocal fluorescence images of HeLa or NUCB1-KO cells transfected with or without NUCB1-WT and fixed after 30, 60, and 90 min of biotin incubation. Arrowheads, cytoplasmic vesicles. Scale bars, 5 µm. (E) Quantification of cytoplasmic vesicles observed in A. n = 24 cells; two independent experiments; median ± IQR; ***, P < 0.001; n.s., non-significant. (F) Cell surface biotinylation assay coupled with streptavidin pull-down. HeLa or NUCB1-KO cells were untreated (time 0) or incubated with sulfo-NHS-Biotin for 90 min to label cell surface proteins, and then pulled down with Neutravidin beads. WB analysis shows a reduction in the amount of endogenous active MT1-MMP at the surface of NUCB1-KO cells compared with HeLa control. β-1 integrin was used as loading control. (G) Semiquantitative analysis of surface labeled active MT1-MMP from F represented as % of normalized MT1-MMP intensity to β-1 integrin in comparison to control (100%). n = 3 independent experiments; one-sample t test, **, P < 0.01. Bars, mean ± SD.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Variant Assay, Incubation, Confocal Microscopy, Transfection, Construct, Fluorescence, Cell Surface Biotinylation Assay, Labeling

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 does not affect MMP2 activation nor trafficking of other cargoes such as HRP and Cathepsin D. (A) Zymography assay of HeLa cells expressing SS-MMP2-SBP-eGFP. Untsf HeLa, Hela without transfection; [SN], 10×-concentrated supernatants; CN, HeLa control; KO, NUCB1-KO. (B) Semiquantitative analysis of experiment shown in A. n = 3 independent experiments; one-sample t test; n.s., nonsignificant. (C) Whole-cell lysates of HeLa and NUCB1-KO cells stably expressing SS-HRP-FLAG were analyzed by anti-FLAG, anti-NUCB1, and anti-β-actin WB. SS-HRP-FLAG is expressed in HeLa and NUCB1-KO cells to similar levels. (D) Cell culture supernatants of cells described in C were analyzed for HRP activity by chemiluminescence after 4-h secretion. BFA served as a positive control for perturbed secretion and was added for 1 h before HRP secretion analysis. No significant differences were observed between NUCB1-KO and HeLa control cells. *, P < 0.05. (E) HeLa or NUCB1-KO cells expressing SS-SBP-eGFP-Cathepsin D were fixed 20, 40, and 60 min after biotin addition. Representative maximum Z-projection images show Cathepsin D trafficking from Golgi to cytoplasmic vesicles (arrowheads). Scale bars, 10 µm. (F) Quantification of cytoplasmic Cathepsin D vesicles from cells shown in E. n > 30 HeLa and NUCB1-KO cells per time point; two independent experiments; mean ± SD. Statistical analysis was performed using a nonparametric Kruskal–Wallis test with Dunn’s multiple comparison test. No significant differences with P < 0.05 were detected.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Activation Assay, Zymography, Expressing, Transfection, Stable Transfection, Cell Culture, Activity Assay, Positive Control

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 trafficking delay occurs at the cis-Golgi. (A) Fluorescence images of HeLa or NUCB1-KO cells transiently expressing SS-MMP2-SBP-eGFP, fixed at 2.5, 5, and 7.5 min after biotin addition, and counterstained against ERGIC53 (red). Scale bars, 5 µm. (B) Average PC per time point. (C) Colocalization of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP with GM130 (red) after 10, 15, 20, and 25 min of biotin incubation. Scale bars, 5 µm. (D) Average PC illustrates decreased colocalization at 10, 15, and 20 min after biotin addition. (E) Colocalization of SS-MMP2-SBP-eGFP with TGN46 (red) expressed in HeLa or NUCB1-KO cells at 20, 25, 30, 35, and 40 min after biotin addition. Scale bars, 5 µm. (F) Average PC shows that MMP2 is equally colocalizing with TGN46 in HeLa and NUCB1-KO cells upon arrival at the TGN. Error bars represent SD; *, P < 0.05; **, P < 0.01; ***, P < 0.001; n.s., not significant.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Fluorescence, Expressing, Incubation

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: MMP2 trafficking is exclusively delayed at the Golgi in living cells. (A) HeLa or NUCB1-KO cells expressing SS-SBP-MMP2-eGFP were analyzed by live-cell wide-field microscopy. Representative images of MMP2 trafficking after 0, 30, 35, and 40 min of biotin incubation. Images were acquired in 1-min frames for each analyzed cell. Arrowheads, cytoplasmic MMP2 vesicles. Scale bars, 10 µm. (B) Quantification of cytoplasmic MMP2 vesicles per frame from cells shown in A. n.s., nonsignificant. *, P < 0.05; **, P < 0.01. (C) Schematic representation of ER–Golgi cargo transport analysis, measured as normalized Golgi area over time in cells shown in A. (D) Normalized Golgi area for each time point (median ± IQR). A reduced Golgi compaction was observed in the time range 15–23 min in NUCB1-KO cells compared with HeLa control. *, P < 0.05. (E and F) HeLa or NUCB1-KO cells ( n = 11) expressing SS-SBP-MMP2-eGFP fixed without biotin addition and immunostained for ER exit site marker Sec16 (red). Scale bar, 10 µm; zoom, 2 µm. Retained MMP2 in the ER partially colocalized with Sec16 in both control and NUCB1-KO cells to the same extent (F). Magenta arrowheads, MMP2 structures that colocalized with ER exit sites; white arrowheads, ER exit sites. t test: P < 0.05.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Microscopy, Incubation, Marker

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 EFhs are essential for Golgi trafficking of MMP2. (A) Protein alignment of human NUCB1 (Q02818, aa 241–400), CaM (P0DP23), Calumenin (O43852), and Cab45 (Q9BRK5). Pink boxes, NUCB1 EFhs. (B) NUCB1 adapted PDB protein model (accession no. 1SNL ); NUCB1 EFhs, cyan; NUCB1-WT, EFhs with first and last amino acid of the domain in dark blue; NUCB1-mEFh1+2, amino acid substitutions E264Q and E316Q in pink. (C) CoIP of MMP2-eGFP transiently expressed in NUCB1-KO cells transfected with NUCB1-WT or NUCB1-mEFh1+2. n = 4 biological replicates. (D) Semiquantitative analysis of NUCB1 signal per sample normalized to the one of NUCB1-KO cells reexpressing NUCB1-WT. Bars, mean ± SD; one-sample t test. (E) Confocal fluorescence images of HeLa or NUCB1-KO cells expressing SS-MMP2-SBP-eGFP and cotransfected with or without NUCB1-WT or NUCB1-mEFh1+2. After 15, 30, and 45 min of biotin incubation, cells were fixed and costained with NUCB1 antibody (red). Scale bars, 5 µm. Arrowheads, cytoplasmic vesicles. (F) Quantification of cytoplasmic vesicles as in E from two independent experiments (median ± IQR), n ≥ 19 cells. *, P < 0.05; **, P < 0.01; ***, P < 0.001; ****, P < 0.0001.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Transfection, Fluorescence, Expressing, Incubation

Journal: The Journal of Cell Biology

Article Title: Nucleobindin-1 regulates ECM degradation by promoting intra-Golgi trafficking of MMPs

doi: 10.1083/jcb.201907058

Figure Lengend Snippet: NUCB1 depletion impairs ECM invasion and degradation in MDA-MB-231 cells. (A) Expression levels of NUCB1 after siRNA-mediated silencing ( n = 3 independent experiments: R1, R2, and R3). *, unspecific band. (B) Semiquantitative analysis of normalized NUCB1 signal from A in silenced cells compared with control. Bars, mean ± SD. (C) Quantitative PCR analysis of relative MMP2 expression in siRNA-treated MDA-MB-231 cells ( n = 3 independent experiments, one-sample t test). (D) Secretion assay of endogenous MMP2 in MDA-MB-231 cells. [SN], 20×-concentrated supernatant; WCL, whole cell lysates. (E) Semiquantitative analysis of three independent experiments. Bars, mean ± SD. Significance, one-sample t test. (F and G) Representative pictures of Matrigel-coated Transwell invasion (F) or gelatin degradation (G) experiments. Scale bars, 150 µm. (H and I) Quantification of the number of migrating cells (H) and degraded gelatin area (I). Both invasion and degradation were reduced in siNUCB1 cells. Data: median ± IQR; n = 3 independent experiments. Paired t test: *, P < 0.05; **, P < 0.01; n.s., not significant.

Article Snippet: The human MMP2 gene was amplified from a pCMV3-SP-Flag-MMP2 vector (Sino Biological) using 5′-CCC​AAG​CTT​ATG​CCA​CTG​CTG​CTC​TTG​CT-3′ as a forward (Fw) primer and 5′-TTT​TCC​TTT​TGC​GGC​CGC​TCA​AGC​GTA​ATC​TGG​AAC​ATC​GTA​TGG​GTA​GCA​GCC​TAG​CCA​GTC​GGA​TTT-3′ as a reverse (Rv) primer.

Techniques: Expressing, Real-time Polymerase Chain Reaction

Journal: Oncotarget

Article Title: Post-translational modifications of vimentin reflect different pathological processes associated with non-small cell lung cancer and chronic obstructive pulmonary disease

doi: 10.18632/oncotarget.27332

Figure Lengend Snippet: ( A ) The reactivity of the VIM antibody was tested against the selection peptide (RLRSSVPGVR), elongated peptide (RLRSSVPGVRL), truncated peptide (RLRSSVPGV), nonsense peptide (LLARDFEKNY), nonsense biotinylated peptide (LLARDFEKNY-biotin) and the VICM peptide (RLRSSVPGV-Citrulline). %B/B0: B equals the OD at x ng/ml peptide and B0 equals the OD at 0 ng/ml peptide. ( B ) The reactivity of the VIM antibody was tested against recombinant full length vimentin, recombinant full length vimentin cleaved with MMP2 and recombinant full length vimentin cleaved with MMP8.

Article Snippet: To test the specificity of the VIM antibody towards vimentin cleaved by MMP2 and MMP8, recombinant human vimentin (Novus Biologicals, CO, USA) was reconstituted to a final concentration of 1000 ug/mL in 4 mM HCl.

Techniques: Selection, Recombinant

Journal: EMBO Molecular Medicine

Article Title: Metabolic signatures for gastric cancer diagnosis and mechanistic insights: a multicenter study

doi: 10.1038/s44321-025-00325-0

Figure Lengend Snippet: The study included a total of 597 participants, whose plasma samples were analyzed using UPLC-MS/MS untargeted metabolomics. The discovery dataset comprised 144 participants, while the validation dataset included 453 participants. In the discovery phase, metabolic profiling and differential comparison identified 93 candidate differential blood metabolites between GC patients and non-GC controls. Among these, 26 replicated differential metabolites were validated in the external validation dataset. Feature selection using the Lasso score filter resulted in six key features, which were used to construct diagnostic models through machine learning algorithms, including neural network (NN), support vector machine (SVM), ridge regression (RR), logistic regression (LR), and naive Bayes (NB). The diagnostic performance of the model was evaluated for both GC and early-stage GC, with a focus on comparing its sensitivity to that of six commonly employed clinical blood tumor biomarkers (CA724, CA199, CA125, CEA, CA242, and AFP). Furthermore, the identified metabolic biomarkers were validated at tissue level. Isovalerylcarnitine (C5) and N-acetylneuraminate were validated as differentially expressed between GC tissues and paired normal adjacent tissues (NATs). To assess the potential causal relationship, Mendelian randomization (MR) analysis was performed. Isovalerylcarnitine (C5) was causally associated with a reduced risk of GC. Additionally, proteomic analysis on the same cohort’s plasma samples revealed significant correlations between isovalerylcarnitine (C5) and cadherin and MMP families. Finally, in vitro experiments demonstrated that isovalerylcarnitine (C5) inhibited GC cell proliferation, migration and invasion by downregulating the expression of N-cadherin and MMP2.

Article Snippet: Rabbit MMP2 , Proteintech , Cat#10373-2-AP.

Techniques: Clinical Proteomics, Tandem Mass Spectroscopy, Biomarker Discovery, Comparison, Selection, Construct, Diagnostic Assay, Plasmid Preparation, In Vitro, Migration, Expressing

Journal: EMBO Molecular Medicine

Article Title: Metabolic signatures for gastric cancer diagnosis and mechanistic insights: a multicenter study

doi: 10.1038/s44321-025-00325-0

Figure Lengend Snippet: ( A ) Gene Ontology-Biological Process (GO-BP) enrichment analysis of GC protein biomarkers highly associated with isovalerylcarnitine (C5). Key biological processes include extracellular matrix organization, homophilic cell adhesion via plasma membrane adhesion molecules, and cell-matrix adhesion. Statistical analyses were performed using hypergeometric test. ( B ) Correlation between isovalerylcarnitine (C5) and cadherin family members (CDH2, CDH5, CDH11, CDH13, CDHR5, PCDH1, and PCDH12). Statistical analyses were performed using Pearson correlation test. ( C ) Correlation between isovalerylcarnitine (C5) and matrix metalloproteinase (MMP) family members (MMP2 and MMP19). Statistical analyses were performed using Pearson correlation test. .

Article Snippet: Rabbit MMP2 , Proteintech , Cat#10373-2-AP.

Techniques: Clinical Proteomics, Membrane

Journal: EMBO Molecular Medicine

Article Title: Metabolic signatures for gastric cancer diagnosis and mechanistic insights: a multicenter study

doi: 10.1038/s44321-025-00325-0

Figure Lengend Snippet: ( A ) Cell migration ability was estimated using scratch wound healing assays. Isovalerylcarnitine (C5) inhibited migration of AGS cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values: 0 μM vs 100 μM p = 0.0031; 0 μM vs 200 μM P < 0.0001. ** P < 0.01, **** P < 0.0001. ISO is short for isovalerylcarnitine (C5). ( B ) Cell migration ability was estimated using scratch wound healing assays. Isovalerylcarnitine (C5) inhibited migration of MKN1 cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted p values: 0 μM vs 100 μM P = 0.0025; 0 μM vs 200 μM P < 0.0001. ** P < 0.01, **** P < 0.0001. ISO is short for isovalerylcarnitine (C5). ( C ) Cell invasion ability was estimated using transwell assays. Isovalerylcarnitine (C5) inhibited invasion of AGS cells and MKN1 cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values in AGS: 0 μM vs 100 μM P < 0.0001; 0 μM vs 200 μM P < 0.0001. The exact adjusted p values in MKN1: 0 μM vs 100 μM P = 0.0002; 0 μM vs 200 μM p < 0.0001. *** P < 0.001, **** P < 0.0001. Scale bars: 400 μm. ISO is short for isovalerylcarnitine (C5). ( D , E ) Western blot experiments showed that isovalerylcarnitine (C5) inhibited the expression of VE-cadherin and MMP2 in AGS cells ( D ) and MKN1 cells ( E ). ISO is short for isovalerylcarnitine (C5). ( F ) Differential expression of plasma VE-cadherin, and MMP2 between GC patients and non-GC controls. The exact adjusted P values for VE-cadherin: P < 0.0001; for MMP2: P = 0.0056. ** P < 0.01, **** P < 0.0001. Box plots show the median (center line), the 25th and 75th percentiles (lower and upper bounds of the box), and whiskers extending up to 1.5 times the interquartile range from the box limits. Data points beyond this range are considered outliers and are shown individually. .

Article Snippet: Rabbit MMP2 , Proteintech , Cat#10373-2-AP.

Techniques: Migration, Western Blot, Expressing, Quantitative Proteomics, Clinical Proteomics

Journal: EMBO Molecular Medicine

Article Title: Metabolic signatures for gastric cancer diagnosis and mechanistic insights: a multicenter study

doi: 10.1038/s44321-025-00325-0

Figure Lengend Snippet: ( A ) MKN1 cells treated with different concentrations of isovalerylcarnitine (C5) for 24 h were collected to detect calpain activity. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values: 0 μM vs 100 μM P < 0.0001; 0 μM vs 200 μM P < 0.0001. **** P < 0.0001. ISO is short for isovalerylcarnitine (C5). ( B ) MKN1 cells were collected and lysed, and the supernatant was incubated with or without CaCl 2 and 20 μM Calpeptin for 4 h. Then, western blotting was conducted to detect VE-cadherin and MMP2 expression. ( C , D ) Calpain inhibitor calpeptin reversed the inhibitory effects of isovalerylcarnitine (C5) (200 μM) on the expression of VE-cadherin and MMP2 in a dose-dependent manner in AGS cells ( C ) and MKN1 cells ( D ). ISO is short for isovalerylcarnitine (C5); Calp is short for Calpeptin. ( E ) Cell invasion ability was estimated using transwell assays. Calpeptin reversed the inhibitory effects of isovalerylcarnitine (C5) on the invasion of AGS cells and MKN1 cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values in AGS: Vehicle vs ISO p < 0.0001; ISO vs ISO+Calp P < 0.0001. The exact adjusted P values in MKN1: Vehicle vs ISO P < 0.0001; ISO vs ISO+Calp P = 0.0071. ** P < 0.01, **** P < 0.0001. Scale bars: 400 μm. ISO is short for isovalerylcarnitine (C5); Calp is short for Calpeptin. ( F ) Cell migration ability was estimated using scratch wound healing assays. Calpeptin reversed the inhibitory effects of isovalerylcarnitine (C5) on the migration of AGS cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values: Vehicle vs ISO P < 0.0001; ISO vs ISO+Calp P = 0.0016. ** P < 0.01, **** P < 0.0001. ISO is short for isovalerylcarnitine (C5); Calp is short for Calpeptin. ( G ) Cell migration ability was estimated using scratch wound healing assays. Calpeptin reversed the inhibitory effects of isovalerylcarnitine (C5) on the migration of MKN1 cells. Data were mean ± SD, N = 3 biological replicates, one-way ANOVA. The exact adjusted P values: Vehicle vs ISO P < 0.0001; ISO vs ISO+Calp P = 0.0386. * P < 0.05, **** P < 0.0001. ISO is short for isovalerylcarnitine (C5); Calp is short for Calpeptin. .

Article Snippet: Rabbit MMP2 , Proteintech , Cat#10373-2-AP.

Techniques: Activity Assay, Incubation, Western Blot, Expressing, Migration