Journal: The Journal of clinical endocrinology and metabolism

Article Title: Impaired rapid mineralocorticoid action on free intracellular calcium in pseudohypoaldosteronism.

doi: 10.1210/jcem.82.3.3790

Figure Lengend Snippet: FIG. 1. Perinuclear region of interest (ROI) of free intracellular cal- cium in cultured nasal epithelial cells from a normal subject (A) and from a patient with pseudohypoaldosteronism (B) after addition of buffer (PSS) and 10 nm aldosterone.

Article Snippet: Epithelial cells were prepared from nasal swipes by trypsinization, dissipated in bronchial epithelial growth medium (PromoCell, Heidelberg, Germany) supplemented with 5% newborn fetal calf serum (Life Technologies GmbH, Eggenstein, Germany) and grown on 22mm cover slips coated with human placental collagen type VI.

Techniques: Cell Culture

Journal: Nature cell biology

Article Title: A complex secretory program orchestrated by the inflammasome controls paracrine senescence

doi: 10.1038/ncb2784

Figure Lengend Snippet: (a) Co-culture with cells undergoing OIS induces the arrest of normal IMR90 cells. Normal IMR90 human fibroblasts expressing the fluorescent marker mCherry (IMR90 Cherry), were mixed with IMR90 ER:RAS cells. When indicated 200 nM 4OHT was added to activate ER:RAS. Growth curves represent the number of IMR90 ER:RAS (left) or IMR90 Cherry cells (right) present in the co-cultures. Data is a representative experiment of n=2 independent experiments for days 0-7 and mean +/− s.d. of n= 3 independent experiments for day 8. The source data for 2 independent experiments and statistics for day 8 (Student’s t-test) are provided in . (b) Co-culture with IMR90 MEK:ER cells induces the arrest of normal IMR90 cells. The percentage of positive BrdU cells for each population in the cocultures 4 days after 4OHT induction is shown. Data is a representative experiment. The source data for 2 independent experiments are provided in . (c) IMR90 ER:RAS or IMR90 ER cells were co-cultured with normal IMR90 Cherry fibroblasts. BrdU incorporation at day 7 shows that co-culture with IMR90 ER:RAS but not with IMR90 ER induces the arrest of normal IMR90 Cherry cells (centre). Data is a representative experiment. The source data for 2 independent experiments are provided in . Representative images are shown (right). Scale bar, 30 μm. (d) Normal HMEC or IMR90 cells suffer growth arrest when co-cultured with HMEC cells undergoing OIS. HMEC-hTERT (centre) or IMR90 (right) cells expressing Cherry as a fluorescent marker were co-cultured with HMEC-TERT ER:RAS or HMEC-TERT vector cells in the presence of 100 nM 4OHT. Growth curves showing growth arrest of HMEC-TERT Cherry (centre) or IMR90-Cherry cells (right) are shown. Data is a representative experiment.

Article Snippet: HMEC-hTert cells were cultured in mammary epithelial cell growth media (PromoCell).

Techniques: Co-Culture Assay, Expressing, Marker, Cell Culture, BrdU Incorporation Assay, Plasmid Preparation

Journal: Nature Communications

Article Title: Structure and function relationships of mucociliary clearance in human and rat airways

doi: 10.1038/s41467-025-57667-z

Figure Lengend Snippet: a Airway branching generations in human and rat investigated in this study included BG0-6 in humans and BG0-5 in rats. b Workflow for imaging luminal epithelial cell type composition and ciliary beat and clearance function in airway samples. Schematic: Created in BioRender. Nawroth, J. (2025) https://BioRender.com/a01i578 ). c Example IF staining of cilia (ATUB, magenta) and secretory cells (SCGB1A1, green; MUC5AC, gray) in human and rat airway epithelium in BG0 (trachea) and BG5/6. Scale bar: 20 µm. d Quantification of luminal cell proportions labeled with ATUB (ciliated cells) or with MUC5AC and/or SCGB1A1 (secretory cells) as a function of airway branching generation in human and rat airway epithelium. Inset: Percentage of human secretory cell population positive for only MUC5AC (gray), only for SCGB1A1 (green), or for both (white) as a function of branching generation. Solid line: mean, shaded region: SEM. Numbers of human donors (2–3 FOVs each): BG0, n = 3; BG1, n = 3; BG2, n = 5; BG3, n = 3; BG4, n = 7; BG5, n = 2; BG6, n = 2; Numbers of rat donors (2–3 FOVs each): BG0, n = 5; BG1, n = 3; BG2, n = 2; BG4, n = 1; BG5, n = 1. For full donor information see Supplementary Tables and . Source data for ( d ) are provided as a file.

Article Snippet: SAGM: Small Airway Epithelial Growth Medium (Promocell, C-21170) containing 50 nM EC23; and 5. mAir: a 1:1 mix of Dulbecco’s modified eagle medium and Airway epithelial cell growth medium (AECGM, PromoCell, C-21160) with AECGM supplements and 50 nM EC23 (previously described in ref. ).

Techniques: Imaging, Staining, Labeling

Journal: Nature Communications

Article Title: Structure and function relationships of mucociliary clearance in human and rat airways

doi: 10.1038/s41467-025-57667-z

Figure Lengend Snippet: a Representative measurement of ciliary beat frequency (CBF) and associated particle clearance trajectories and speed in a human airway epithelial sample (BG2). b Same measurements in rat airway epithelial sample (BG1). Scalebar in ( a , b ): 100 µm. c Quantification of average CBF, particle clearance speed, and clearance per beat (CPB) in human airways BG0-6 and rat airways BG0-1. Number of human donors: n = 4. Number of rat donors: n = 6. d left: Clearance directionality as a function of distance in human (red) and rat (blue) airways. Thick lines are average curves. Right: Mean directionality over a flow distance of 80 µm. Number of human donors n = 4; number of rat donors: n = 4. Boxplots: Each solid dot is the mean value of one donor (1–3 BGs, 2–4 FOVs each); red line indicates median, bottom and top edges of the box indicate 25th and 75th percentiles, whiskers indicate minimum and maximum; significance was assessed with two-sided unpaired t-test. Source data for ( c , d ) are provided as a file.

Article Snippet: SAGM: Small Airway Epithelial Growth Medium (Promocell, C-21170) containing 50 nM EC23; and 5. mAir: a 1:1 mix of Dulbecco’s modified eagle medium and Airway epithelial cell growth medium (AECGM, PromoCell, C-21160) with AECGM supplements and 50 nM EC23 (previously described in ref. ).

Techniques:

Journal: Nature Communications

Article Title: Structure and function relationships of mucociliary clearance in human and rat airways

doi: 10.1038/s41467-025-57667-z

Figure Lengend Snippet: a Representative IF-images of primary human airway epithelial cultures from 1 donor grown in different differentiation media for 28 days at ALI and stained for cilia (ATUB, magenta) and secretory cell markers (SCGB1A1, green; MUC5AC, white). Scalebar, 40 µm. b Average luminal cell type composition based on IF-staining (in vitro: N = 4–7 donors, 2 inserts each with 3–8 FOVs each; ex vivo: 9 donors, 1–3 BGs, 2–3 FOVs each). c Mapping of IF-staining data of in vitro and ex vivo samples onto three dimensions. y- axis: percentage of MUC5AC+ cells; x-axis: cilia coverage, i.e., percentage of ciliated (ATUB + ) cells; circle diameter: ratio of SCGB1A1+ to MUC5AC+ cell percentages. d Average percentage of MUC5B expressing cells and e relative percentage of MUC5B expressing cells that also express either SCGB1A1 or MUC5AC from IF-stainings (in vitro: n = 2 (SAGM, BD) to n = 4 (PC, PC-S, mAir) donors, 1–2 inserts each with 1–6 FOVs each; ex vivo: n = 3 donors, BG0, 2–4 FOVs each). Boxplot: Each dot represents mean of one donor; red line indicates median, bottom and top edges of the box indicate 25th and 75th percentiles, whiskers indicate minimum and maximum. Source data for ( b – e ) are provided as a file.

Article Snippet: SAGM: Small Airway Epithelial Growth Medium (Promocell, C-21170) containing 50 nM EC23; and 5. mAir: a 1:1 mix of Dulbecco’s modified eagle medium and Airway epithelial cell growth medium (AECGM, PromoCell, C-21160) with AECGM supplements and 50 nM EC23 (previously described in ref. ).

Techniques: Staining, In Vitro, Ex Vivo, Expressing

Journal: Nature Communications

Article Title: Structure and function relationships of mucociliary clearance in human and rat airways

doi: 10.1038/s41467-025-57667-z

Figure Lengend Snippet: a Quantitative analysis of particle CPB and directionality in primary human airway epithelial cultures grown in different differentiation media for 28 days at ALI compared to human and rat benchmark data. Number of donors (2–3 inserts each with 6 FOVs each) for BD, mAir, SAGM, PC, PC-S, respectively: n = 5, 4, 4, 5, 4. b Quantitative analysis of ciliary beat metrics in airway cells cultured and visualized as in ( a ). Number of donors (2–3 inserts each with 6 FOVs each) for BD, mAir, SAGM, PC, PC-S, respectively: Cilia Coverage, n = 7, 4, 4, 7, 4; Ciliary Beat OP, n = 4, 4, 2 (1 not measurable), 4, 4; Ciliary Beat Amplitude: n = 4, 4, 3, 4, 4; Cilia Length, n = 4, 4, 4, 4, 4; Ciliation Gap, n = 4, 4, 3, 4, 4; Crystalline OP, n = 4, 4, 3, 4, 4. Boxplots in ( a , b ): Each solid dot is the mean value of one donor (1–3 BGs, 2–4 FOVs each); red line indicates median, bottom and top edges of the box indicate 25th and 75th percentiles, whiskers indicate minimum and maximum. Dotted lines indicate average human and rat benchmark values. c Top: Predicted CPB and clearance directionality in in vitro cultures compared to predicted human airway performance (red). Shaded regions indicate uncertainty based on spread of input metrics. Measured mean values per donor are overlaid (dots). Bottom: Predicted change in CPB and directionality of in vitro cultures in different media if an individual cilia input parameter is set to match ex vivo values. Source data for ( a – c ) are provided as a file.

Article Snippet: SAGM: Small Airway Epithelial Growth Medium (Promocell, C-21170) containing 50 nM EC23; and 5. mAir: a 1:1 mix of Dulbecco’s modified eagle medium and Airway epithelial cell growth medium (AECGM, PromoCell, C-21160) with AECGM supplements and 50 nM EC23 (previously described in ref. ).

Techniques: Cell Culture, In Vitro, Ex Vivo

Journal: bioRxiv

Article Title: Development of high-affinity, single-domain protein binders for neutralizing household allergens

doi: 10.1101/2025.08.03.668213

Figure Lengend Snippet: (a) Thermostability profile of AVA-1-1-C3 as a representative protein, as determined by differential scanning fluorimetry. (b-g) Cytotoxicity of primary human cells following 48-hour exposure to AVA-1-1-C3 or an equivalent concentration of bovine serum albumin (BSA), evaluated using the CellTiter-Glo® (CTG) luminescent cell viability assay. Cell types included human epithelial keratinocytes (HEK, b), human dermal fibroblasts (HDF, c), human follicle dermal papilla cells (HFDPC, d), human renal cortical epithelial cells (HRCEPC, e), human skeletal muscle cells (HSKMC, f), and human dermal microvascular endothelial cells (HDMEC, g). No significant differences in cell viability were observed. Data in (b-g) represents mean ± s.d. and are representative of two experimental replicates.

Article Snippet: Cells were cultured in their corresponding complete media including HDF growth medium (Cell Applications, Cat# 116-500), human EpiVita serum-free growth medium (Cell Applications, Cat# 141-500a), microvascular endothelial cell growth medium (PromoCells, Cat# C-22120), HSkMC growth medium (Cell Applications, Cat# 151-500), and renal epithelial cell growth media (PromoCell, Cat# C-26130).

Techniques: Concentration Assay, Cell Viability Assay