Morphology of the bovine chondrocyte and of its cytoskeleton in isolation and in situ: are chondrocytes ubiquitously paired through the entire layer of articular cartilage?

doi:10.1093/rheumatology/ken341

Rheumatology Advance Access originally published online on September 16, 2008
Rheumatology 2008 47(11):1641-1646; doi:10.1093/rheumatology/ken341

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Morphology of the bovine chondrocyte and of its cytoskeleton in isolation and in situ: are chondrocytes ubiquitously paired through the entire layer of articular cartilage?

Y. Sasazaki¹, B. B. Seedhom¹ and R. Shore²

¹Division of Bioengineering, Academic Unit of Musculoskeletal Disease and ²Oral Biology, Leeds Dental Institute, University of Leeds, Leeds, UK.

Correspondence to: Y. Sasazaki, Clinical Research Centre, National Hospital Organization Murayama Medical Centre, 2-37-1 Gakuen, Musasimurayamasi, Tokyo 208-0011, Japan. E-mail: medys{at}leeds.ac.uk

Abstract

Objectives. We compared the morphology and cytoskeleton of chondrocytesseeded in monolayer or in agarose gels with those retained insitu i.e. within their extracellular matrix—the chondrocyte'snatural habitat.

Methods. Cartilage specimens were harvested from adult bovinefemora. Chondrocytes were either enzymatically isolated to seedin both monolayer and agarose gel culture conditions or retainedin situ. Full thickness cartilage on bone was sliced both paralleland perpendicular to the articular surface. After immunostaining,the morphology of chondrocytes and of their cytoskeletal organization,i.e. distribution of actin and vimentin, in chondrocytes seededboth in monolayer and 3D agarose and those retained in situ,were assessed using confocal laser scanning microscopy.

Results. The general cytoskeletal disposition of chondrocytesin situ was similar to that in agarose gel. Actin was seen toform stress fibres only in 2D culture, but not in 3D cultureand in situ. In these latter conditions, actin showed a punctatestaining pattern. The vimentin meshwork spanned the cytoplasmfrom the plasma membrane to the nuclear membrane in all cultureconditions. However, the organization of the vimentin had aradiate organization in chondrocytes in monolayer and a morecircumferential arrangement both in agarose gel and in situ.We further observed: (i) the prevalence of a bichondral configurationof chondrocytes in situ and (ii) the existence of a vimentinlink joining some of the sister cells in situ.

Conclusions. Bichondral configuration linked with cytoskeletalelements may potentially be significant for the normal functionof the chondrocytes, and therefore have implications for approachesto tissue engineering of cartilage.

KEY WORDS: Articular cartilage, Chondrocyte, Cytoskeleton

Submitted 11 July 2007; revised version accepted 16 July 2008.
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