Ciliary IFT88 protects coordinated adolescent growth plate ossification from disruptive physiological mechanical forces.
Journal article
Coveney CR. et al, (2022), J Bone Miner Res
Age-dependent changes in protein incorporation into collagen-rich tissues of mice by in vivo pulsed SILAC labelling.
Journal article
Ariosa-Morejon Y. et al, (2021), Elife, 10
The ciliary protein IFT88 controls post-natal cartilage thickness and influences development of osteoarthritis
Journal article
Coveney C. et al, (2021), Arthritis and Rheumatology
The ciliary protein IFT88 controls post-natal cartilage thickness and influences development of osteoarthritis.
Journal article
Coveney CR. et al, (2021), Arthritis Rheumatol
Identification of a novel regulator of ADAMTS-5-mediated aggrecan degradation in chondrocytes
Conference paper
Collins I. et al, (2021), INTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, 102, 120 - 121
IDENTIFICATION OF A NOVEL REGULATOR OF ADAMTS-5-MEDIATED AGGRECAN DEGRADATION IN CHONDROCYTES
Conference paper
Collins I. et al, (2021), OSTEOARTHRITIS AND CARTILAGE, 29, S100 - S100
IS THE CILIARY PROTEIN INTRAFLAGELLAR TRANSPORT 88 A DAMPENER OF MECHANICAL CUES IN ADOLESCENT EPIPHYSEAL PLATE CLOSURE?
Conference paper
Coveney CR. et al, (2021), OSTEOARTHRITIS AND CARTILAGE, 29, S107 - S107
THE CILIARY PROTEIN INTRAFLAGELLAR TRANSPORT 88 IS REQUIRED FOR THE MATURATION, HOMEOSTASIS AND MECHANOADAPTATION OF ARTICULAR CARTILAGE
Conference paper
Coveney CR. et al, (2021), OSTEOARTHRITIS AND CARTILAGE, 29, S26 - S27
The role and uses of antibodies in COVID-19 infections: a living review.
Journal article
Scourfield DO. et al, (2021), Oxf Open Immunol, 2
Ciliary proteins specify the cell inflammatory response by tuning NFκB signalling, independently of primary cilia.
Journal article
WANN A. et al, (2020), Journal of Cell Science
THE CILIARY PROTEIN INTRAFLAGELLAR TRANSPORT 88 IS REQUIRED FOR THE MATURATION, HOMEOSTASIS AND MECHANOADAPTATION OF ARTICULAR CARTILAGE
Conference paper
Coveney CR. et al, (2020), OSTEOARTHRITIS AND CARTILAGE, 28, S75 - S75
Regulation of the Extracellular Matrix by Ciliary Machinery.
Journal article
Collins I. and Wann AKT., (2020), Cells, 9
IFT88 maintains profound influence in the post-natal joint, through joint maturation, and during adult homeostasis acting as the cartilage mechanoeffector
Conference paper
Coveney C. et al, (2019)
Mechanical loading inhibits cartilage inflammatory signalling via an HDAC6 and IFT-dependent mechanism regulating primary cilia elongation.
Journal article
Fu S. et al, (2019), Osteoarthritis Cartilage
Prominin-1 controls stem cell activation by orchestrating ciliary dynamics.
Journal article
Singer D. et al, (2019), EMBO J, 38
Mechanoadaptation: articular cartilage through thick and thin.
Journal article
Vincent TL. and Wann AK., (2018), The Journal of physiology
The cilia protein IFT88 regulates extracellular protease activity by optimising LRP-1-mediated endocytosis.
Journal article
Coveney CR. et al, (2018), FASEB Journal
Chondrocyte expansion is associated with loss of primary cilia and disrupted hedgehog signalling.
Journal article
Thompson CL. et al, (2017), European cells & materials, 34, 128 - 141
IFT88 influences chondrocyte actin organization and biomechanics.
Journal article
Wang Z. et al, (2016), Osteoarthritis Cartilage, 24, 544 - 554
Hedgehog signalling does not stimulate cartilage catabolism and is inhibited by Interleukin-1β.
Journal article
Thompson CL. et al, (2015), Arthritis Res Ther, 17