Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP-1-mediated endocytosis
Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP-1-mediated endocytosis
Matrix protease activity is fundamental to developmental tissue patterning and remains influential in adult homeostasis. In cartilage, the principal matrix proteoglycan is aggrecan, the protease-mediated catabolism of which defines arthritis; however, the pathophysiologic mechanisms that drive aberrant aggrecanolytic activity remain unclear. Human ciliopathies exhibit altered matrix, which has been proposed to be the result of dysregulated hedgehog signaling that is tuned within the primary cilium. Here, we report that disruption of intraflagellar transport protein 88 (IFT88), a core ciliary trafficking protein, increases chondrocyte aggrecanase activity in vitro. We find that the receptor for protease endocytosis in chondrocytes, LDL receptor-related protein 1 (LRP-1), is unevenly distributed over the cell membrane, often concentrated at the site of cilia assembly. Hypomorphic mutation of IFT88 disturbs this apparent hot spot for protease uptake, increases receptor shedding, and results in a reduced rate of protease clearance from the extracellular space. We propose that IFT88 and/or the cilium regulates the extracellular remodeling of matrix-independently of Hedgehog regulation-by enabling rapid LRP-1-mediated endocytosis of proteases, potentially by supporting the creation of a ciliary pocket. This result highlights new roles for the cilium's machinery in matrix turnover and LRP-1 function, with potential relevance in a range of diseases.-Coveney, C. R., Collins, I., Mc Fie, M., Chanalaris, A., Yamamoto, K., Wann, A. K. T. Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP-1-mediated endocytosis.
Coveney, Clarissa R.
254cb939-73c7-462b-b3dc-ea2f38cbd9cc
Collins, Isabella
29fc00c3-91dc-463d-b388-f30e4ffd514e
Mc Fie, Megan
b9da6011-6f06-4e31-b6e3-a9e6f33dce6c
Chanalaris, Anastasios
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Yamamoto, Kazuhiro
b90146ae-96ed-486b-aca0-a9b5779dd83c
Wann, Angus K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
19 June 2018
Coveney, Clarissa R.
254cb939-73c7-462b-b3dc-ea2f38cbd9cc
Collins, Isabella
29fc00c3-91dc-463d-b388-f30e4ffd514e
Mc Fie, Megan
b9da6011-6f06-4e31-b6e3-a9e6f33dce6c
Chanalaris, Anastasios
72d46901-69ac-4892-b713-4963b1b5d14f
Yamamoto, Kazuhiro
b90146ae-96ed-486b-aca0-a9b5779dd83c
Wann, Angus K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Coveney, Clarissa R., Collins, Isabella and Mc Fie, Megan
,
et al.
(2018)
Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP-1-mediated endocytosis.
The FASEB Journal.
(doi:10.1096/FJ.201800334).
Abstract
Matrix protease activity is fundamental to developmental tissue patterning and remains influential in adult homeostasis. In cartilage, the principal matrix proteoglycan is aggrecan, the protease-mediated catabolism of which defines arthritis; however, the pathophysiologic mechanisms that drive aberrant aggrecanolytic activity remain unclear. Human ciliopathies exhibit altered matrix, which has been proposed to be the result of dysregulated hedgehog signaling that is tuned within the primary cilium. Here, we report that disruption of intraflagellar transport protein 88 (IFT88), a core ciliary trafficking protein, increases chondrocyte aggrecanase activity in vitro. We find that the receptor for protease endocytosis in chondrocytes, LDL receptor-related protein 1 (LRP-1), is unevenly distributed over the cell membrane, often concentrated at the site of cilia assembly. Hypomorphic mutation of IFT88 disturbs this apparent hot spot for protease uptake, increases receptor shedding, and results in a reduced rate of protease clearance from the extracellular space. We propose that IFT88 and/or the cilium regulates the extracellular remodeling of matrix-independently of Hedgehog regulation-by enabling rapid LRP-1-mediated endocytosis of proteases, potentially by supporting the creation of a ciliary pocket. This result highlights new roles for the cilium's machinery in matrix turnover and LRP-1 function, with potential relevance in a range of diseases.-Coveney, C. R., Collins, I., Mc Fie, M., Chanalaris, A., Yamamoto, K., Wann, A. K. T. Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP-1-mediated endocytosis.
Text
The FASEB Journal - 2018 - Coveney - Cilia protein IFT88 regulates extracellular protease activity by optimizing LRP‐1
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Accepted/In Press date: 5 March 2018
Published date: 19 June 2018
Identifiers
Local EPrints ID: 488457
URI: http://eprints.soton.ac.uk/id/eprint/488457
ISSN: 0892-6638
PURE UUID: d1c0f781-59ae-4775-a5e6-81d9849a0b9b
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Date deposited: 22 Mar 2024 17:47
Last modified: 23 Mar 2024 03:11
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Contributors
Author:
Clarissa R. Coveney
Author:
Isabella Collins
Author:
Megan Mc Fie
Author:
Anastasios Chanalaris
Author:
Kazuhiro Yamamoto
Author:
Angus K.T. Wann
Corporate Author: et al.
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