Orientation of Primary Cilia of Articular Chondrocytes in Three‐Dimensional Space

Farnum, Cornelia E.; Wilsman, Norman J.

doi:10.1002/ar.21330

Cited by 48 publications

(63 citation statements)

References 114 publications

(191 reference statements)

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“…A role for chondrocyte primary cilia in sensing mechanical signals has been proposed by observations of cilia orientation and projection within the cartilage matrix [13, 35–38]. In articular cartilage, primary cilia in the superficial layer point away from the articular surface while primary cilia on chondrocytes in the mid or deep zone of load bearing joints can be pointed towards the articular surface or towards the subchondral bone [37]. Orientation is not consistent in non-load bearing cartilages.…”

Section: Discussionmentioning

confidence: 99%

Depletion of primary cilia in articular chondrocytes results in reduced Gli3 repressor to activator ratio, increased Hedgehog signaling, and symptoms of early osteoarthritis

Chang¹,

Ramaswamy²,

Serra³

2012

Osteoarthritis and Cartilage

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Objective Primary cilia are present in almost every cell type including chondrocytes. Studies have shown that defects in primary cilia result in skeletal dysplasia. The purpose of this study was to understand how loss of primary cilia affects articular cartilage. Design Ift88 encodes a protein that is required for intraflagellar transport and formation of primary cilia. In this study, we used Col2aCre;Ift88fl/fl transgenic mice in which primary cilia were deleted in chondrocytes. Col2aCre;Ift88fl/fl articular cartilage was characterized by histological staining, real time RT-PCR, and microindentation. Hedgehog (Hh) signaling was measured by expression of Ptch1 and Gli1 mRNA. The levels of Gli3 proteins were determined by western blot. Results Col2aCre;Ift88fl/fl articular cartilage was thicker and had increased cell density, likely due to decreased apoptosis during cartilage remodeling. Mutant articular cartilage also showed increased expression of osteoarthritis (OA) markers including Mmp13, Adamts5, ColX, and Runx2. OA was also evident by reduced stiffness in mutant cartilage as measured by microindentation. Up-regulation of Hh signaling, which has been associated with OA, was present in mutant articular cartilage as measured by expression of Ptch1 and Gli1. Col2aCre;Ift88fl/fl cartilage also demonstrated reduced Gli3 repressor to activator ratio. Conclusion Our results indicate that primary cilia are required for normal development and maintenance of articular cartilage. It was shown that primary cilia are required for processing full length Gli3 to the truncated repressor form. We propose that OA symptoms in Col2aCre;Ift88fl/fl cartilage are due to reduced Hh signal repression by Gli3.

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Section: Discussionmentioning

confidence: 99%

Depletion of primary cilia in articular chondrocytes results in reduced Gli3 repressor to activator ratio, increased Hedgehog signaling, and symptoms of early osteoarthritis

Chang¹,

Ramaswamy²,

Serra³

2012

Osteoarthritis and Cartilage

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“…Cilia are oriented in chondrocytes relative to the cartilage layer (Farnum and Wilsman, 2011) and in vascular smooth muscle cells relative to the direction of stress (Lu et al, 2008). These directed orientations presumably allow mechanosensory cilia to respond to strains in particular directions.…”

Section: Sensory Ciliamentioning

confidence: 99%

Centrosome positioning in vertebrate development

Tang

Marshall

2012

Journal of Cell Science

118

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SummaryThe centrosome, a major organizer of microtubules, has important functions in regulating cell shape, polarity, cilia formation and intracellular transport as well as the position of cellular structures, including the mitotic spindle. By means of these activities, centrosomes have important roles during animal development by regulating polarized cell behaviors, such as cell migration or neurite outgrowth, as well as mitotic spindle orientation. In recent years, the pace of discovery regarding the structure and composition of centrosomes has continuously accelerated. At the same time, functional studies have revealed the importance of centrosomes in controlling both morphogenesis and cell fate decision during tissue and organ development. Here, we review examples of centrosome and centriole positioning with a particular emphasis on vertebrate developmental systems, and discuss the roles of centrosome positioning, the cues that determine positioning and the mechanisms by which centrosomes respond to these cues. The studies reviewed here suggest that centrosome functions extend to the development of tissues and organs in vertebrates.

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“…Since Integrins, Notch receptors and several members of GPCRs in Hh and Wnt signalling, as well as neurotransmission, are localized to primary cilia, it is tempting to speculate that ample signalling crosstalk and networking takes place in the cilium–centrosome axis. In connective, muscle and skeletal tissues, the cilium may directly interact with multiple components of ECM to regulate the length and orientation of primary cilia to control cellular positional information [52,81,100,116-119] and, when defective in chondrocytes, may lead to osteoarthritis [120] and osteochondroma [121]. In this regard, the further crosstalk with TRP ion channels, such as polycystins, adds an additional layer of complexity in signalling networking in ciliary mechanosensation [122].…”

Section: Rtk Crosstalking and Signalling Networkingmentioning

confidence: 99%

Primary cilia and coordination of receptor tyrosine kinase (RTK) signalling

Christensen

Clément

Satir

et al. 2011

The Journal of Pathology

164

163

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Primary cilia are microtubule-based sensory organelles that coordinate signalling pathways in cell-cycle control, migration, differentiation and other cellular processes critical during development and for tissue homeostasis. Accordingly, defects in assembly or function of primary cilia lead to a plethora of developmental disorders and pathological conditions now known as ciliopathies. In this review, we summarize the current status of the role of primary cilia in coordinating receptor tyrosine kinase (RTK) signalling pathways. Further, we present potential mechanisms of signalling crosstalk and networking in the primary cilium and discuss how defects in ciliary RTK signalling are linked to human diseases and disorders.

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Orientation of Primary Cilia of Articular Chondrocytes in Three‐Dimensional Space

Cited by 48 publications

References 114 publications

Depletion of primary cilia in articular chondrocytes results in reduced Gli3 repressor to activator ratio, increased Hedgehog signaling, and symptoms of early osteoarthritis

Depletion of primary cilia in articular chondrocytes results in reduced Gli3 repressor to activator ratio, increased Hedgehog signaling, and symptoms of early osteoarthritis

Centrosome positioning in vertebrate development

Primary cilia and coordination of receptor tyrosine kinase (RTK) signalling

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