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ctr1  (Sino Biological)
93
Sino Biological ctr1
iRGD-LP-CUR-PIP may affect the VEGFR2/P38/MK2 signaling pathway by influencing <t>CTR1</t> cysteine oxidation ( n = 3). A Schematic of molecular docking of piperine. B Effect of iRGD-LP-CUR-PIP on tumor tissue + secretion of CTR1 protein and its quantitative analysis ( n = 3). C Effect of iRGD-LP-CUR-PIP on CTR1 protein secretion by Td-ECs and its quantitative analysis ( n = 3). D Schematic of the mechanism of interaction between CTR1 and VEGF versus the control group, * P < 0.05, *** P < 0.001; versus the LP-CUR-PIP group, # P < 0.05, ## P < 0.01, ### P < 0.001; versus the iRGD-LP-CUR group, & P < 0.05, &&& P < 0.001
Ctr1, supplied by Sino Biological, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1  (MedChemExpress)
93
MedChemExpress ctr1
iRGD-LP-CUR-PIP may affect the VEGFR2/P38/MK2 signaling pathway by influencing <t>CTR1</t> cysteine oxidation ( n = 3). A Schematic of molecular docking of piperine. B Effect of iRGD-LP-CUR-PIP on tumor tissue + secretion of CTR1 protein and its quantitative analysis ( n = 3). C Effect of iRGD-LP-CUR-PIP on CTR1 protein secretion by Td-ECs and its quantitative analysis ( n = 3). D Schematic of the mechanism of interaction between CTR1 and VEGF versus the control group, * P < 0.05, *** P < 0.001; versus the LP-CUR-PIP group, # P < 0.05, ## P < 0.01, ### P < 0.001; versus the iRGD-LP-CUR group, & P < 0.05, &&& P < 0.001
Ctr1, supplied by MedChemExpress, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti slc31a1  (Boster Bio)
94
Boster Bio anti slc31a1
iRGD-LP-CUR-PIP may affect the VEGFR2/P38/MK2 signaling pathway by influencing <t>CTR1</t> cysteine oxidation ( n = 3). A Schematic of molecular docking of piperine. B Effect of iRGD-LP-CUR-PIP on tumor tissue + secretion of CTR1 protein and its quantitative analysis ( n = 3). C Effect of iRGD-LP-CUR-PIP on CTR1 protein secretion by Td-ECs and its quantitative analysis ( n = 3). D Schematic of the mechanism of interaction between CTR1 and VEGF versus the control group, * P < 0.05, *** P < 0.001; versus the LP-CUR-PIP group, # P < 0.05, ## P < 0.01, ### P < 0.001; versus the iRGD-LP-CUR group, & P < 0.05, &&& P < 0.001
Anti Slc31a1, supplied by Boster Bio, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1 +/− mouse strain  (Jackson Laboratory)
90
Jackson Laboratory ctr1 +/− mouse strain
Quantification of total disSOD1 burden in the SN of all mouse strains following treatment. Immunofluorescent staining of fixed midbrain tissues from the substantia nigra pars compacta (SNc) and substantia nigra pars reticulata (SNr) of h <t>SOD1</t> WT and SOCK mice treated daily with vehicle or 15 mg/kg CuATSM. Immunostaining utilized the unfolded beta barrel (UβB) conformation-specific SOD1, which revealed disSOD1 aggregates (magenta) within and outside of dopamine neurons (TH, cyan; white arrowheads) and astrocytes (GFAP, yellow; double white arrowheads). Individual panels for immunostaining of the SNc and SNr of SOCK and h SOD1 WT mice, as well as Ctr1 +/− and wild-type mice, are presented in Supplementary Figs. and . Antibody details are presented in Supplementary Table . Scale bars represent 20 μm in panels a-c. d. The volume of disSOD1 expressed relative to the total volume of tissue within which it was quantified varied significantly between genotypes and was elevated in SOCK mice compared with h SOD1 WT mice treated with vehicle. CuATSM treatment elicited a significant decrease in this pathology in SOCK mice but not in any control mouse strains. e. Midbrain copper levels were decreased in vehicle-treated Ctr1 +/− and SOCK mice compared with wild-type mice, while CuATSM treatment induced significant increases in midbrain copper levels in all four mouse strains. Data in panels d and e represent mean ± SEM ( n = 10/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^ p < 0.05, ^^ p < 0.01. f. DisSOD1 volume in the SN was inversely correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. Statistical test details are presented in the panel
Ctr1 +/− Mouse Strain, supplied by Jackson Laboratory, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1 plasmids  (Shanghai GenePharma)
90
Shanghai GenePharma ctr1 plasmids
Quantification of total disSOD1 burden in the SN of all mouse strains following treatment. Immunofluorescent staining of fixed midbrain tissues from the substantia nigra pars compacta (SNc) and substantia nigra pars reticulata (SNr) of h <t>SOD1</t> WT and SOCK mice treated daily with vehicle or 15 mg/kg CuATSM. Immunostaining utilized the unfolded beta barrel (UβB) conformation-specific SOD1, which revealed disSOD1 aggregates (magenta) within and outside of dopamine neurons (TH, cyan; white arrowheads) and astrocytes (GFAP, yellow; double white arrowheads). Individual panels for immunostaining of the SNc and SNr of SOCK and h SOD1 WT mice, as well as Ctr1 +/− and wild-type mice, are presented in Supplementary Figs. and . Antibody details are presented in Supplementary Table . Scale bars represent 20 μm in panels a-c. d. The volume of disSOD1 expressed relative to the total volume of tissue within which it was quantified varied significantly between genotypes and was elevated in SOCK mice compared with h SOD1 WT mice treated with vehicle. CuATSM treatment elicited a significant decrease in this pathology in SOCK mice but not in any control mouse strains. e. Midbrain copper levels were decreased in vehicle-treated Ctr1 +/− and SOCK mice compared with wild-type mice, while CuATSM treatment induced significant increases in midbrain copper levels in all four mouse strains. Data in panels d and e represent mean ± SEM ( n = 10/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^ p < 0.05, ^^ p < 0.01. f. DisSOD1 volume in the SN was inversely correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. Statistical test details are presented in the panel
Ctr1 Plasmids, supplied by Shanghai GenePharma, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1 antibody  (Proteintech)
90
Proteintech ctr1 antibody
Quantification of total disSOD1 burden in the SN of all mouse strains following treatment. Immunofluorescent staining of fixed midbrain tissues from the substantia nigra pars compacta (SNc) and substantia nigra pars reticulata (SNr) of h <t>SOD1</t> WT and SOCK mice treated daily with vehicle or 15 mg/kg CuATSM. Immunostaining utilized the unfolded beta barrel (UβB) conformation-specific SOD1, which revealed disSOD1 aggregates (magenta) within and outside of dopamine neurons (TH, cyan; white arrowheads) and astrocytes (GFAP, yellow; double white arrowheads). Individual panels for immunostaining of the SNc and SNr of SOCK and h SOD1 WT mice, as well as Ctr1 +/− and wild-type mice, are presented in Supplementary Figs. and . Antibody details are presented in Supplementary Table . Scale bars represent 20 μm in panels a-c. d. The volume of disSOD1 expressed relative to the total volume of tissue within which it was quantified varied significantly between genotypes and was elevated in SOCK mice compared with h SOD1 WT mice treated with vehicle. CuATSM treatment elicited a significant decrease in this pathology in SOCK mice but not in any control mouse strains. e. Midbrain copper levels were decreased in vehicle-treated Ctr1 +/− and SOCK mice compared with wild-type mice, while CuATSM treatment induced significant increases in midbrain copper levels in all four mouse strains. Data in panels d and e represent mean ± SEM ( n = 10/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^ p < 0.05, ^^ p < 0.01. f. DisSOD1 volume in the SN was inversely correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. Statistical test details are presented in the panel
Ctr1 Antibody, supplied by Proteintech, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1  (Cell Signaling Technology Inc)
94
Cell Signaling Technology Inc ctr1
Figure 3. <t>CTR1</t> upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)
Ctr1, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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phospho mtor ser2448  (Cell Signaling Technology Inc)
99
Cell Signaling Technology Inc phospho mtor ser2448
Figure 3. <t>CTR1</t> upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)
Phospho Mtor Ser2448, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ctr1 abmart t510261f antibody  (Abmart Inc)
90
Abmart Inc ctr1 abmart t510261f antibody
Figure 3. <t>CTR1</t> upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)
Ctr1 Abmart T510261f Antibody, supplied by Abmart Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti-ctr1 intracellular domain  (GeneTex)
90
GeneTex anti-ctr1 intracellular domain
Figure 3. <t>CTR1</t> upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)
Anti Ctr1 Intracellular Domain, supplied by GeneTex, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


iRGD-LP-CUR-PIP may affect the VEGFR2/P38/MK2 signaling pathway by influencing CTR1 cysteine oxidation ( n = 3). A Schematic of molecular docking of piperine. B Effect of iRGD-LP-CUR-PIP on tumor tissue + secretion of CTR1 protein and its quantitative analysis ( n = 3). C Effect of iRGD-LP-CUR-PIP on CTR1 protein secretion by Td-ECs and its quantitative analysis ( n = 3). D Schematic of the mechanism of interaction between CTR1 and VEGF versus the control group, * P < 0.05, *** P < 0.001; versus the LP-CUR-PIP group, # P < 0.05, ## P < 0.01, ### P < 0.001; versus the iRGD-LP-CUR group, & P < 0.05, &&& P < 0.001

Journal: Discover Oncology

Article Title: iRGD-modified co-loaded curcumin piperine liposomes inhibit angiogenesis in non-small cell lung cancer through the VEGFR2/P38/MK2 signaling axis

doi: 10.1007/s12672-025-03922-0

Figure Lengend Snippet: iRGD-LP-CUR-PIP may affect the VEGFR2/P38/MK2 signaling pathway by influencing CTR1 cysteine oxidation ( n = 3). A Schematic of molecular docking of piperine. B Effect of iRGD-LP-CUR-PIP on tumor tissue + secretion of CTR1 protein and its quantitative analysis ( n = 3). C Effect of iRGD-LP-CUR-PIP on CTR1 protein secretion by Td-ECs and its quantitative analysis ( n = 3). D Schematic of the mechanism of interaction between CTR1 and VEGF versus the control group, * P < 0.05, *** P < 0.001; versus the LP-CUR-PIP group, # P < 0.05, ## P < 0.01, ### P < 0.001; versus the iRGD-LP-CUR group, & P < 0.05, &&& P < 0.001

Article Snippet: Expression levels of proteins included VEGF (1 : 2000, 19003-1-AP, Proteintech), VEGFR2 (1:5000, 26415-1-AP, Proteintech), Integrin Alpha V + Beta3 (1 : 1000, bs-1310R, Bioss), TEM8 (1:1000, 15091-1-AP, Proteintech), TEM1 (1:2000, 60170-1-lg, Proteintech), MK2 (1:1000, 13949-1-AP, Proteintech), p-MK2 (1:1000, BS4902, Bioword), HSP27 (1:1000, 50353, Cell Signaling), P38 (1:1000, 14064-1-AP, Cell Proteintech), p-P38 (1:1000, AF4001, Proteintech), GAPDH (1:1000, 2118, CST), and CTR1 (1:1000, 16023-H02H, Sino Biological).

Techniques: Control

Quantification of total disSOD1 burden in the SN of all mouse strains following treatment. Immunofluorescent staining of fixed midbrain tissues from the substantia nigra pars compacta (SNc) and substantia nigra pars reticulata (SNr) of h SOD1 WT and SOCK mice treated daily with vehicle or 15 mg/kg CuATSM. Immunostaining utilized the unfolded beta barrel (UβB) conformation-specific SOD1, which revealed disSOD1 aggregates (magenta) within and outside of dopamine neurons (TH, cyan; white arrowheads) and astrocytes (GFAP, yellow; double white arrowheads). Individual panels for immunostaining of the SNc and SNr of SOCK and h SOD1 WT mice, as well as Ctr1 +/− and wild-type mice, are presented in Supplementary Figs. and . Antibody details are presented in Supplementary Table . Scale bars represent 20 μm in panels a-c. d. The volume of disSOD1 expressed relative to the total volume of tissue within which it was quantified varied significantly between genotypes and was elevated in SOCK mice compared with h SOD1 WT mice treated with vehicle. CuATSM treatment elicited a significant decrease in this pathology in SOCK mice but not in any control mouse strains. e. Midbrain copper levels were decreased in vehicle-treated Ctr1 +/− and SOCK mice compared with wild-type mice, while CuATSM treatment induced significant increases in midbrain copper levels in all four mouse strains. Data in panels d and e represent mean ± SEM ( n = 10/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^ p < 0.05, ^^ p < 0.01. f. DisSOD1 volume in the SN was inversely correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. Statistical test details are presented in the panel

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: Quantification of total disSOD1 burden in the SN of all mouse strains following treatment. Immunofluorescent staining of fixed midbrain tissues from the substantia nigra pars compacta (SNc) and substantia nigra pars reticulata (SNr) of h SOD1 WT and SOCK mice treated daily with vehicle or 15 mg/kg CuATSM. Immunostaining utilized the unfolded beta barrel (UβB) conformation-specific SOD1, which revealed disSOD1 aggregates (magenta) within and outside of dopamine neurons (TH, cyan; white arrowheads) and astrocytes (GFAP, yellow; double white arrowheads). Individual panels for immunostaining of the SNc and SNr of SOCK and h SOD1 WT mice, as well as Ctr1 +/− and wild-type mice, are presented in Supplementary Figs. and . Antibody details are presented in Supplementary Table . Scale bars represent 20 μm in panels a-c. d. The volume of disSOD1 expressed relative to the total volume of tissue within which it was quantified varied significantly between genotypes and was elevated in SOCK mice compared with h SOD1 WT mice treated with vehicle. CuATSM treatment elicited a significant decrease in this pathology in SOCK mice but not in any control mouse strains. e. Midbrain copper levels were decreased in vehicle-treated Ctr1 +/− and SOCK mice compared with wild-type mice, while CuATSM treatment induced significant increases in midbrain copper levels in all four mouse strains. Data in panels d and e represent mean ± SEM ( n = 10/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^ p < 0.05, ^^ p < 0.01. f. DisSOD1 volume in the SN was inversely correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. Statistical test details are presented in the panel

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques: Staining, Immunostaining, Control

Impact of CuATSM treatment on the distribution of disSOD1 pathology in the SN of SOCK mice. ( a ) Three-dimensional reconstructions of immunostaining for disSOD1 (UβB), dopamine neurons (TH, cyan) and astrocytes (GFAP, yellow) in the SNc and SNr of SOCK and h SOD1 WT mice. DisSOD1 localized within or outside of either cell type is presented in white or magenta, respectively. Scale bars represent 20 μm. Reconstructions of all four mouse strains treated with vehicle or CuATSM are presented in (Supplementary Fig. ). Panels displayed in this figure constitute those most important for illustrating the higher level of disSOD1 pathology in SOCK mice and the impact of CuATSM treatment. ( b ) Proportions of disSOD1 pathology colocalized within dopamine (DA) neurons, astrocytes, or other compartments (other). Percentages were generated by scaling the raw volume of disSOD1 in each compartment to the total volume of disSOD1 in the entire SN (SNc + SNr) of vehicle-treated SOCK mice, as this represents the maximum disSOD1 volume exhibited by any mouse strain/treatment combination. Raw disSOD1 volumes are reported in Supplementary Table

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: Impact of CuATSM treatment on the distribution of disSOD1 pathology in the SN of SOCK mice. ( a ) Three-dimensional reconstructions of immunostaining for disSOD1 (UβB), dopamine neurons (TH, cyan) and astrocytes (GFAP, yellow) in the SNc and SNr of SOCK and h SOD1 WT mice. DisSOD1 localized within or outside of either cell type is presented in white or magenta, respectively. Scale bars represent 20 μm. Reconstructions of all four mouse strains treated with vehicle or CuATSM are presented in (Supplementary Fig. ). Panels displayed in this figure constitute those most important for illustrating the higher level of disSOD1 pathology in SOCK mice and the impact of CuATSM treatment. ( b ) Proportions of disSOD1 pathology colocalized within dopamine (DA) neurons, astrocytes, or other compartments (other). Percentages were generated by scaling the raw volume of disSOD1 in each compartment to the total volume of disSOD1 in the entire SN (SNc + SNr) of vehicle-treated SOCK mice, as this represents the maximum disSOD1 volume exhibited by any mouse strain/treatment combination. Raw disSOD1 volumes are reported in Supplementary Table

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques: Immunostaining, Generated

Altered SOD1 PTMs in the SN of vehicle- and CuATSM-treated SOCK mice. Atypical oxidation of SOD1 histidine residues was increased in the SN of SOCK mice compared with h SOD1 WT mice ( a ), while glycosylation ( b ) and acetylglucosamine ( c ) were significantly decreased. Side chains of labelled residues are highlighted in black, red and yellow, respectively. Residues are labelled using one letter amino acid codes. Copper and zinc ions are highlighted in orange and cyan respectively. Alterations to SOD1 PTMs in vehicle-treated ( d ) and CuATSM-treated ( e ) SOCK mice. Circles for each type of modification in the legend are scaled to the number of residues where that PTM is altered in each treatment group. GlyGly modifications result from tryptic digestion of ubiquitin-conjugated proteins, which serve as indicators of protein ubiquitination. Complete details of statistical analyses identifying PTM alterations in vehicle- and CuATSM-treated SOCK mice are presented in Supplementary Table . Abbreviations: GlcNAc, acetylglucosamination

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: Altered SOD1 PTMs in the SN of vehicle- and CuATSM-treated SOCK mice. Atypical oxidation of SOD1 histidine residues was increased in the SN of SOCK mice compared with h SOD1 WT mice ( a ), while glycosylation ( b ) and acetylglucosamine ( c ) were significantly decreased. Side chains of labelled residues are highlighted in black, red and yellow, respectively. Residues are labelled using one letter amino acid codes. Copper and zinc ions are highlighted in orange and cyan respectively. Alterations to SOD1 PTMs in vehicle-treated ( d ) and CuATSM-treated ( e ) SOCK mice. Circles for each type of modification in the legend are scaled to the number of residues where that PTM is altered in each treatment group. GlyGly modifications result from tryptic digestion of ubiquitin-conjugated proteins, which serve as indicators of protein ubiquitination. Complete details of statistical analyses identifying PTM alterations in vehicle- and CuATSM-treated SOCK mice are presented in Supplementary Table . Abbreviations: GlcNAc, acetylglucosamination

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques: Glycoproteomics, Modification, Ubiquitin Proteomics

SOD1 enzymatic activity and protein expression in the SN of all mouse strains following treatment. ( a ) Total SOD activity varied significantly between mouse strains and was increased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type (WT) and Ctr1 +/− mice, as well as vehicle-treated SOCK mice compared with h SOD1 WT mice. CuATSM treatment elicited increases in total SOD activity across all strains. ( b ) SOD activity per unit of SOD1 protein varied significantly between mouse strains and was decreased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type mice, as well as vehicle-treated SOCK mice compared with h SOD1 WT mice. CuATSM treatment increased SOD activity per unit of SOD1 protein in SOCK and h SOD1 WT mice. ( c ) SOD activity per unit of SOD1 protein was positively correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. ( d ) DisSOD1 volume in the SN was inversely correlated with SOD activity per unit of SOD1 protein in vehicle- and CuATSM-treated SOCK mice. ( e ) SOD1 protein levels varied significantly between mouse strains and were increased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type and Ctr1 +/− mice. CuATSM treatment elicited increases in SOD1 protein levels in wild-type and Ctr1 +/− mice. Full representative immunoblots are presented in Supplementary Fig. . Data in panels a , b and e represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. ## p < 0.01, ### p < 0.001, * p < 0.05, **** p < 0.0001, ^^^^ p < 0.0001. ( f ) SOD1 protein levels were positively correlated with total SOD activity in vehicle- and CuATSM-treated wild-type and Ctr1 +/− mice. Statistical test details for c , d and f are presented in the panel

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: SOD1 enzymatic activity and protein expression in the SN of all mouse strains following treatment. ( a ) Total SOD activity varied significantly between mouse strains and was increased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type (WT) and Ctr1 +/− mice, as well as vehicle-treated SOCK mice compared with h SOD1 WT mice. CuATSM treatment elicited increases in total SOD activity across all strains. ( b ) SOD activity per unit of SOD1 protein varied significantly between mouse strains and was decreased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type mice, as well as vehicle-treated SOCK mice compared with h SOD1 WT mice. CuATSM treatment increased SOD activity per unit of SOD1 protein in SOCK and h SOD1 WT mice. ( c ) SOD activity per unit of SOD1 protein was positively correlated with midbrain copper content in vehicle- and CuATSM-treated SOCK and h SOD1 WT mice. ( d ) DisSOD1 volume in the SN was inversely correlated with SOD activity per unit of SOD1 protein in vehicle- and CuATSM-treated SOCK mice. ( e ) SOD1 protein levels varied significantly between mouse strains and were increased in vehicle-treated SOCK and h SOD1 WT mice compared with wild-type and Ctr1 +/− mice. CuATSM treatment elicited increases in SOD1 protein levels in wild-type and Ctr1 +/− mice. Full representative immunoblots are presented in Supplementary Fig. . Data in panels a , b and e represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. ## p < 0.01, ### p < 0.001, * p < 0.05, **** p < 0.0001, ^^^^ p < 0.0001. ( f ) SOD1 protein levels were positively correlated with total SOD activity in vehicle- and CuATSM-treated wild-type and Ctr1 +/− mice. Statistical test details for c , d and f are presented in the panel

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques: Activity Assay, Expressing, Western Blot

Evaluation of nigrostriatal neurotransmission and neurodegeneration in all mouse strains following treatment. ( a ) Striatal dopamine levels were significantly reduced in h SOD1 WT and SOCK mice treated with vehicle compared with wild-type mice, whilst CuATSM treatment increased striatal dopamine levels in SOCK mice and decreased them in wild-type mice. ( b ) Striatal dopamine turnover, defined as the levels of homovanillic acid (HVA) and DOPAC normalized to dopamine (DA) levels, was significantly elevated in SOCK mice treated with vehicle compared with wild-type mice, with CuATSM treatment preventing this alteration and eliciting an elevation in dopamine turnover in wild-type and h SOD1 WT mice. ( c ) Stereological quantification of 3D-reconstructed tyrosine hydroxylase immunostaining revealed a significant loss of SNc dopamine neurons in vehicle-treated SOCK mice compared with all control mouse strains, which was rescued by CuATSM treatment. Representative 3D reconstructions of each genotype/treatment are presented in Supplementary Fig. . Data in panels a-c represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice. * p < 0.05, *** p < 0.001, ^ p < 0.05, ^^ p < 0.01, ^^^ p < 0.001. The density of SNc dopamine neurons was positively correlated with midbrain copper levels ( d ), inversely correlated with SNc disSOD1 volume ( e ) and positively correlated with midbrain total SOD activity ( f ) in SOCK mice. Statistical test details for d - f are presented in the panel

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: Evaluation of nigrostriatal neurotransmission and neurodegeneration in all mouse strains following treatment. ( a ) Striatal dopamine levels were significantly reduced in h SOD1 WT and SOCK mice treated with vehicle compared with wild-type mice, whilst CuATSM treatment increased striatal dopamine levels in SOCK mice and decreased them in wild-type mice. ( b ) Striatal dopamine turnover, defined as the levels of homovanillic acid (HVA) and DOPAC normalized to dopamine (DA) levels, was significantly elevated in SOCK mice treated with vehicle compared with wild-type mice, with CuATSM treatment preventing this alteration and eliciting an elevation in dopamine turnover in wild-type and h SOD1 WT mice. ( c ) Stereological quantification of 3D-reconstructed tyrosine hydroxylase immunostaining revealed a significant loss of SNc dopamine neurons in vehicle-treated SOCK mice compared with all control mouse strains, which was rescued by CuATSM treatment. Representative 3D reconstructions of each genotype/treatment are presented in Supplementary Fig. . Data in panels a-c represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice. * p < 0.05, *** p < 0.001, ^ p < 0.05, ^^ p < 0.01, ^^^ p < 0.001. The density of SNc dopamine neurons was positively correlated with midbrain copper levels ( d ), inversely correlated with SNc disSOD1 volume ( e ) and positively correlated with midbrain total SOD activity ( f ) in SOCK mice. Statistical test details for d - f are presented in the panel

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques: Immunostaining, Control, Activity Assay

Motor performance testing in all mouse strains following treatment. In balance beam testing, the latency in time taken to cross the beam ( a ), together with the number of paw slips ( b ), varied significantly between mouse strains, with both increased in vehicle-treated SOCK mice compared with wild-type (WT) and h SOD1 WT mice. CuATSM treatment significantly reduced both measures in SOCK mice, but did not change them in other strains. By contrast there was no variation in grip strength ( c ) or open field test performance metrics - time (sec) immobile ( d ), total distance travelled (meters; e ), central zone entries ( f )– between all strains and treatment groups. g. Mouse body weight increased at comparable rates between all four mouse strains treated with vehicle ( p = 0.9093, F = 0.3890), although CuATSM treatment improved weight gain in SOCK mice (statistical test details presented in panel). h. Spinal motor neuron densities in each mouse genotype did not vary between vehicle and CuATSM treatment, nor did they vary between genotypes within the same treatment group. Data in panels a-f and h represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^^^^ p < 0.0001

Journal: Acta Neuropathologica Communications

Article Title: Copper supplementation mitigates Parkinson-like wild-type SOD1 pathology and nigrostriatal degeneration in a novel mouse model

doi: 10.1186/s40478-025-02048-2

Figure Lengend Snippet: Motor performance testing in all mouse strains following treatment. In balance beam testing, the latency in time taken to cross the beam ( a ), together with the number of paw slips ( b ), varied significantly between mouse strains, with both increased in vehicle-treated SOCK mice compared with wild-type (WT) and h SOD1 WT mice. CuATSM treatment significantly reduced both measures in SOCK mice, but did not change them in other strains. By contrast there was no variation in grip strength ( c ) or open field test performance metrics - time (sec) immobile ( d ), total distance travelled (meters; e ), central zone entries ( f )– between all strains and treatment groups. g. Mouse body weight increased at comparable rates between all four mouse strains treated with vehicle ( p = 0.9093, F = 0.3890), although CuATSM treatment improved weight gain in SOCK mice (statistical test details presented in panel). h. Spinal motor neuron densities in each mouse genotype did not vary between vehicle and CuATSM treatment, nor did they vary between genotypes within the same treatment group. Data in panels a-f and h represent mean ± SEM ( n = 9–11/genotype/treatment), with full details of statistical tests presented in Supplementary Table . Comparisons marked with an asterisk (*) denote those made between vehicle- and CuATSM-treated mice of the same genotype, those marked with an arrowhead (^) demarcate those made to vehicle-treated wild-type mice, while those marked with a hashtag (#) denote those made to vehicle-treated h SOD1 WT mice. #### p < 0.0001, **** p < 0.0001, ^^^^ p < 0.0001

Article Snippet: Both h SOD1 WT and Ctr1 +/− mouse lines were sourced from The Jackson Laboratory (Bar Harbor, Maine, USA) and all mouse lines were bred and maintained at Australian BioResources (Moss Vale, NSW, Australia).

Techniques:

Figure 3. CTR1 upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)

Journal: Cancer cell

Article Title: Radiotherapy promotes cuproptosis and synergizes with cuproptosis inducers to overcome tumor radioresistance.

doi: 10.1016/j.ccell.2025.03.031

Figure Lengend Snippet: Figure 3. CTR1 upregulation and mitochondrial GSH depletion contribute to RT-mediated cuproptosis (A) Volcano plot from RNA sequencing (RNA-seq) analysis (DESeq2 R) of two untreated and three RT-treated samples showing the upregulation of CTR1 (also called SLC31A1) in FLO-1 cells 24 h after 6 Gy RT. (B and C) Relative CTR1 mRNA (B, n = 3) or protein (C) levels in FLO-1 or OE33 cells 24 h after RT treatment. (D) Immunohistochemical scoring of CTR1 in the indicated lung cancer PDX tumors with or without RT. n = 6 randomly selected magnification fields. (E and F) Relative CTR1 protein (E) or copper levels (F, n = 3) in FLO-1 or OE33 cells expressing empty vector (EV) or with CTR1 overexpression (oeCTR1). (legend continued on next page)

Article Snippet: Immunoprecipitation andWestern blot analysis were conducted as previously described.45,46 The primary antibodies and concentrations used in the current study included the following: MT1E (1:1,000, MA5-43655, Fisher), MT1X (1:1,000, 17172-1-AP, Proteintech), BACH1 (1:1,000, 14018-1-AP, Proteintech), NRF2 (1:1,000, 12721S, Cell Signaling), FDX1 (1:1,000, 12592-1-AP, Proteintech), LIAS (1:1,000, 11577-1-AP, Proteintech), Lipoic acid (1:1,000, 437695, Millipore), DLAT (1:1,000, 12362s, Cell Signaling), CTR1 (1:1,000, 13086, Cell Signaling), DMT1 (1:1,000, 20507-1-AP, Proteintech), ETS1 (1:2000, 14069, Cell Signaling), Vinculin (1:10000; V4505, Sigma), b-actin (1:5,000, 3700, Cell Signaling), Bcl-2 (1:1,000, 15071, Cell Signaling), SLC25A39 (1:1,000, 14963-1-AP, Proteintech), and Cleaved Caspase-3 (Asp175) (1:1000, 9661s, Cell Signaling).

Techniques: RNA Sequencing, Immunohistochemical staining, Expressing, Plasmid Preparation, Over Expression

Figure 8. Schematics illustrating the role of cuproptosis in radiotherapy (RT) (A) In parental cells, RT triggers cuproptosis by depleting mitochondrial glutathione and upregulating CTR1. (B) In radioresistant cells, downregulation of BACH1 leads to increased expression of MT1E/X, which suppresses RT-induced cuproptosis and promotes radioresistance. (C) Increasing intracellular copper levels by copper ionophores promotes cuproptosis and sensitizes radioresistant cells to RT. Schematics generated using BioRender.

Journal: Cancer cell

Article Title: Radiotherapy promotes cuproptosis and synergizes with cuproptosis inducers to overcome tumor radioresistance.

doi: 10.1016/j.ccell.2025.03.031

Figure Lengend Snippet: Figure 8. Schematics illustrating the role of cuproptosis in radiotherapy (RT) (A) In parental cells, RT triggers cuproptosis by depleting mitochondrial glutathione and upregulating CTR1. (B) In radioresistant cells, downregulation of BACH1 leads to increased expression of MT1E/X, which suppresses RT-induced cuproptosis and promotes radioresistance. (C) Increasing intracellular copper levels by copper ionophores promotes cuproptosis and sensitizes radioresistant cells to RT. Schematics generated using BioRender.

Article Snippet: Immunoprecipitation andWestern blot analysis were conducted as previously described.45,46 The primary antibodies and concentrations used in the current study included the following: MT1E (1:1,000, MA5-43655, Fisher), MT1X (1:1,000, 17172-1-AP, Proteintech), BACH1 (1:1,000, 14018-1-AP, Proteintech), NRF2 (1:1,000, 12721S, Cell Signaling), FDX1 (1:1,000, 12592-1-AP, Proteintech), LIAS (1:1,000, 11577-1-AP, Proteintech), Lipoic acid (1:1,000, 437695, Millipore), DLAT (1:1,000, 12362s, Cell Signaling), CTR1 (1:1,000, 13086, Cell Signaling), DMT1 (1:1,000, 20507-1-AP, Proteintech), ETS1 (1:2000, 14069, Cell Signaling), Vinculin (1:10000; V4505, Sigma), b-actin (1:5,000, 3700, Cell Signaling), Bcl-2 (1:1,000, 15071, Cell Signaling), SLC25A39 (1:1,000, 14963-1-AP, Proteintech), and Cleaved Caspase-3 (Asp175) (1:1000, 9661s, Cell Signaling).

Techniques: Expressing, Generated