IGFBP3 regulates airway basal cell stemness and airway regeneration

再生(生物学) 气道 基础(医学) 生物 细胞生物学 解剖 医学 内分泌学 外科 胰岛素
作者
Shubha Murthy,Aparna Pathmanathan,Adrian Cáceres,Rosemary Sease,Ben A. Calvert,Crystal N. Marconett,Amy L. Ryan
出处
期刊:Physiology [American Physiological Society]
卷期号:39 (S1)
标识
DOI:10.1152/physiol.2024.39.s1.1959
摘要

Basal Cells (BCs) are multipotent progenitor cells of the upper airway and critical in airway epithelial regeneration. Impaired self-renewal and differentiation capacity of BCs is a significant cause of chronic respiratory diseases. However, mechanisms mediating these changes remain largely unexplored. We, and others, have observed attenuated growth and differentiation of BCs after repeated cell divisions in vitro. To investigate mechanisms regulating BC stemness, we performed bulk RNA-sequencing to analyze transcriptomes of early and late passage BCs maintained in culture. Our analyses reveal significant differences in the expression of genes involved in IGF- and IGFBP3-dependent pathways that are known to modulate cellular growth and ROS generation. The role of these pathways in regulating BC stemness have not been systematically investigated. We hypothesized that IGFBP3 regulates BC growth and differentiation by modulating cellular redox status and DNA damage repair. Herein, we demonstrate that passage of non-diseased human BCs over 5 passages increases IGFBP3 transcript in 3 independent growth conditions. Interestingly, continued passage decreased IGFBP3 expression and significantly altered its intracellular localization. In contrast to low passage cells where IGFBP3 is largely cytosolic, high passage cells almost exclusively express IGFBP3 in their nuclei where it is known to participate in DNA repair. Consistent with this, we observed increased DNA repair gene expression in high passage cells coupled with significant reduction in thioredoxin levels. Together, these results suggest that serial passage of BCs causes oxidative stress-mediated BC exhaustion and altered IGFBP3 expression and localization. To investigate the role of IGFBP3 in BC growth and differentiation, we knocked down IGFBP3 expression and, as hypothesized, IGFBP3 knock down of low passage cells attenuated growth, BC markers, and DNA damage repair gene expression. In addition, differentiation to secretory, ciliated and club cells at the air-liquid interphase was significantly attenuated. In conclusion, our data support an IGFBP3-dependent regulation of BC stemness by preserving growth and differentiation. This study was supported by the NIH R01HL139828 (ALR) and Cystic Fibrosis Foundation grants FIRTH17XX0 (ALR), RYAN21XX0, FIRTH21XX0 (ALR, CNM). BCs for this study were provided though the Center for Gene Therapy Cell Core funded by the NIH:NIDDK. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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