Collagen fibril formation at the plasma membrane occurs independently from collagen secretion

Adam Pickard; Richa Garva; Antony Adamson; Ben C Calverley; Anna Hoyle; Christina E Hayward; David Spiller; Yinhui Lu; Nigel Hodson; Oriana Mandolfo; Kevin K Kim; George Bou-Gharios; Joe Swift; Brian Bigger; Karl E Kadler

doi:10.1101/2024.05.09.593302

Collagen fibril formation at the plasma membrane occurs independently from collagen secretion

Adam Pickard, Richa Garva, Antony Adamson, Ben C Calverley, Anna Hoyle, Christina E Hayward, David Spiller, Yinhui Lu, Nigel Hodson, Oriana Mandolfo, Kevin K Kim, George Bou-Gharios, Joe Swift, Brian Bigger, Karl E Kadler

Research output: Preprint/Working paper › Preprint

Abstract

Collagen fibrils are the primary supporting scaffold of vertebrate tissues but how they are assembled is unclear. Here, using CRISPR-tagging of type I collagen and SILAC labelling, we elucidate the cellular mechanism for the spatiotemporal assembly of collagen fibrils, in cultured fibroblasts. Our findings reveal multifaceted trafficking of collagen, including constitutive secretion, intracellular pooling, and plasma membrane-directed fibrillogenesis. Notably, we differentiate the processes of collagen secretion and fibril assembly and identify the crucial involvement of endocytosis in regulating fibril formation. By employing Col1a1 knockout fibroblasts we demonstrate the incorporation of exogenous collagen into nucleation sites at the plasma membrane through these recycling mechanisms. Our study sheds light on the assembly process and its regulation in health and disease. Mass spectrometry data are available via ProteomeXchange with identifier PXD036794.

Original language	English
Publisher	Cold Spring Harbor Laboratory Press
DOIs	https://doi.org/10.1101/2024.05.09.593302
Publication status	Published - 10 May 2024

Publication series

Name	bioRxiv
Publisher	Cold Spring Harbor Laboratory Press
ISSN (Print)	2692-8205

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10.1101/2024.05.09.593302

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Pickard, A., Garva, R., Adamson, A., Calverley, B. C., Hoyle, A., Hayward, C. E., Spiller, D., Lu, Y., Hodson, N., Mandolfo, O., Kim, K. K., Bou-Gharios, G., Swift, J., Bigger, B., & Kadler, K. E. (2024). Collagen fibril formation at the plasma membrane occurs independently from collagen secretion. (bioRxiv). Cold Spring Harbor Laboratory Press. https://doi.org/10.1101/2024.05.09.593302

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abstract = "Collagen fibrils are the primary supporting scaffold of vertebrate tissues but how they are assembled is unclear. Here, using CRISPR-tagging of type I collagen and SILAC labelling, we elucidate the cellular mechanism for the spatiotemporal assembly of collagen fibrils, in cultured fibroblasts. Our findings reveal multifaceted trafficking of collagen, including constitutive secretion, intracellular pooling, and plasma membrane-directed fibrillogenesis. Notably, we differentiate the processes of collagen secretion and fibril assembly and identify the crucial involvement of endocytosis in regulating fibril formation. By employing Col1a1 knockout fibroblasts we demonstrate the incorporation of exogenous collagen into nucleation sites at the plasma membrane through these recycling mechanisms. Our study sheds light on the assembly process and its regulation in health and disease. Mass spectrometry data are available via ProteomeXchange with identifier PXD036794.",

author = "Adam Pickard and Richa Garva and Antony Adamson and Calverley, {Ben C} and Anna Hoyle and Hayward, {Christina E} and David Spiller and Yinhui Lu and Nigel Hodson and Oriana Mandolfo and Kim, {Kevin K} and George Bou-Gharios and Joe Swift and Brian Bigger and Kadler, {Karl E}",

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AU - Pickard, Adam

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AU - Calverley, Ben C

AU - Hoyle, Anna

AU - Hayward, Christina E

AU - Spiller, David

AU - Lu, Yinhui

AU - Hodson, Nigel

AU - Mandolfo, Oriana

AU - Kim, Kevin K

AU - Bou-Gharios, George

AU - Swift, Joe

AU - Bigger, Brian

AU - Kadler, Karl E

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AB - Collagen fibrils are the primary supporting scaffold of vertebrate tissues but how they are assembled is unclear. Here, using CRISPR-tagging of type I collagen and SILAC labelling, we elucidate the cellular mechanism for the spatiotemporal assembly of collagen fibrils, in cultured fibroblasts. Our findings reveal multifaceted trafficking of collagen, including constitutive secretion, intracellular pooling, and plasma membrane-directed fibrillogenesis. Notably, we differentiate the processes of collagen secretion and fibril assembly and identify the crucial involvement of endocytosis in regulating fibril formation. By employing Col1a1 knockout fibroblasts we demonstrate the incorporation of exogenous collagen into nucleation sites at the plasma membrane through these recycling mechanisms. Our study sheds light on the assembly process and its regulation in health and disease. Mass spectrometry data are available via ProteomeXchange with identifier PXD036794.

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BT - Collagen fibril formation at the plasma membrane occurs independently from collagen secretion

PB - Cold Spring Harbor Laboratory Press

ER -

Collagen fibril formation at the plasma membrane occurs independently from collagen secretion

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