Mechanosensitive hyaluronan secretion: stimulus-response curves and role of transcription-translation-translocation in rabbit joints
Mechanosensitive hyaluronan secretion: stimulus-response curves and role of transcription-translation-translocation in rabbit joints
Joint movement was recently shown to stimulate the secretion of the lubricant hyaluronan (HA); also, exercise therapy and intra-articular hyaluronan injections are used to treat moderate osteoarthritis. The present study quantifies the stimulus–response curves for HA secretion in vivo and reports a role of transcription–translation–translocation in the secretory response. After washing out endogenous HA from anaesthetized, cannulated rabbit knees, the joints were cycled passively at various frequencies and durations, with or without intra-articular inhibitors of protein synthesis and Golgi processing. Newly secreted HA was harvested for analysis after 5 h. Joints displayed graded, non-linear stimulus–response curves to both duration and frequency of movement; 1 min duration per 15 min or a frequency of 0.17 Hz raised HA secretion by 42–54%, while rapid (1.5 Hz) or prolonged cycling (9 min per 15 min) raised it by 110–130%. Movement-stimulated secretion and phorbol ester-stimulated secretion were partly inhibited by the translation inhibitor cycloheximide, by the transcription–translation inhibitors actinomycin D and puromycin and by the Golgi translocation inhibitor brefeldin A. There is thus a graded coupling between HA secretion and cyclic joint movement that depends partly on new protein synthesis. This is likely to be important for joint homeostasis, providing protection during repetitive cycling and potentially contributing to exercise therapy for osteoarthritis.
350-361
Wann, A.K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Ingram, K.R.
5956d47c-4d3c-4483-b4de-8c4693531366
Coleman, P.J.
1c55586e-c367-470c-b14b-832edb75c0ce
McHale, N.
33e55894-31fe-4c30-af2a-7904a33ad9a6
Levick, J.R.
021b986e-e07e-478e-957b-bb99a5d8be8e
13 February 2009
Wann, A.K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Ingram, K.R.
5956d47c-4d3c-4483-b4de-8c4693531366
Coleman, P.J.
1c55586e-c367-470c-b14b-832edb75c0ce
McHale, N.
33e55894-31fe-4c30-af2a-7904a33ad9a6
Levick, J.R.
021b986e-e07e-478e-957b-bb99a5d8be8e
Wann, A.K.T., Ingram, K.R. and Coleman, P.J.
,
et al.
(2009)
Mechanosensitive hyaluronan secretion: stimulus-response curves and role of transcription-translation-translocation in rabbit joints.
Experimental Physiology, 94 (3), .
(doi:10.1113/EXPPHYSIOL.2008.045203).
Abstract
Joint movement was recently shown to stimulate the secretion of the lubricant hyaluronan (HA); also, exercise therapy and intra-articular hyaluronan injections are used to treat moderate osteoarthritis. The present study quantifies the stimulus–response curves for HA secretion in vivo and reports a role of transcription–translation–translocation in the secretory response. After washing out endogenous HA from anaesthetized, cannulated rabbit knees, the joints were cycled passively at various frequencies and durations, with or without intra-articular inhibitors of protein synthesis and Golgi processing. Newly secreted HA was harvested for analysis after 5 h. Joints displayed graded, non-linear stimulus–response curves to both duration and frequency of movement; 1 min duration per 15 min or a frequency of 0.17 Hz raised HA secretion by 42–54%, while rapid (1.5 Hz) or prolonged cycling (9 min per 15 min) raised it by 110–130%. Movement-stimulated secretion and phorbol ester-stimulated secretion were partly inhibited by the translation inhibitor cycloheximide, by the transcription–translation inhibitors actinomycin D and puromycin and by the Golgi translocation inhibitor brefeldin A. There is thus a graded coupling between HA secretion and cyclic joint movement that depends partly on new protein synthesis. This is likely to be important for joint homeostasis, providing protection during repetitive cycling and potentially contributing to exercise therapy for osteoarthritis.
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Accepted/In Press date: 6 January 2009
e-pub ahead of print date: 12 January 2009
Published date: 13 February 2009
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Local EPrints ID: 488453
URI: http://eprints.soton.ac.uk/id/eprint/488453
ISSN: 0958-0670
PURE UUID: 1a5cc870-1b04-46a0-bbe2-cde296f5cb4a
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Date deposited: 22 Mar 2024 17:41
Last modified: 23 Mar 2024 03:11
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Author:
A.K.T. Wann
Author:
K.R. Ingram
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N. McHale
Author:
J.R. Levick
Corporate Author: et al.
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