TY - JOUR
T1 - Endocytic recycling is central to circadian collagen fibrillogenesis and disrupted in fibrosis
AU - Chang, Joan
AU - Pickard, Adam
AU - Herrera, Jeremy
AU - O'Keefe, Sarah
AU - Hartshorn, Matthew
AU - Garva, Richa
AU - Hoyle, Anna
AU - Dingle, Lewis
AU - Zeltz, Cédric
AU - Wong, Jason
AU - Reid, Adam
AU - Venkateswaran, Rajamiyer
AU - Lu, Yinhui
AU - Caswell, Patrick
AU - High, Stephen
AU - Gullberg, Donald
AU - Kadler, Karl
PY - 2024/4/3
Y1 - 2024/4/3
N2 - Collagen-I fibrillogenesis is crucial to health and development, where dysregulation is a hallmark of fibroproliferative diseases. Here, we show that collagen-I fibril assembly required a functional endocytic system that recycles collagen-I to assemble new fibrils. Endogenous collagen production was not required for fibrillogenesis if exogenous collagen was available, but the circadian-regulated vacuolar protein sorting (VPS) 33b and collagen-binding integrin-α11 subunit were crucial to fibrillogenesis. Cells lacking VPS33b secrete soluble collagen-I protomers but were deficient in fibril formation, thus secretion and assembly are separately controlled. Overexpression of VPS33b led to loss of fibril rhythmicity and over-abundance of fibrils, which was mediated through integrin α11β1. Endocytic recycling of collagen-I was enhanced in human fibroblasts isolated from idiopathic pulmonary fibrosis, where VPS33b and integrin-α11 subunit were overexpressed at the fibrogenic front; this correlation between VPS33b, integrin-α11 subunit, and abnormal collagen deposition was also observed in samples from patients with chronic skin wounds. In conclusion, our study showed that circadian-regulated endocytic recycling is central to homeostatic assembly of collagen fibrils and is disrupted in diseases.
AB - Collagen-I fibrillogenesis is crucial to health and development, where dysregulation is a hallmark of fibroproliferative diseases. Here, we show that collagen-I fibril assembly required a functional endocytic system that recycles collagen-I to assemble new fibrils. Endogenous collagen production was not required for fibrillogenesis if exogenous collagen was available, but the circadian-regulated vacuolar protein sorting (VPS) 33b and collagen-binding integrin-α11 subunit were crucial to fibrillogenesis. Cells lacking VPS33b secrete soluble collagen-I protomers but were deficient in fibril formation, thus secretion and assembly are separately controlled. Overexpression of VPS33b led to loss of fibril rhythmicity and over-abundance of fibrils, which was mediated through integrin α11β1. Endocytic recycling of collagen-I was enhanced in human fibroblasts isolated from idiopathic pulmonary fibrosis, where VPS33b and integrin-α11 subunit were overexpressed at the fibrogenic front; this correlation between VPS33b, integrin-α11 subunit, and abnormal collagen deposition was also observed in samples from patients with chronic skin wounds. In conclusion, our study showed that circadian-regulated endocytic recycling is central to homeostatic assembly of collagen fibrils and is disrupted in diseases.
U2 - 10.7554/eLife.95842.1
DO - 10.7554/eLife.95842.1
M3 - Article
SN - 2050-084X
JO - eLife
JF - eLife
ER -