Immunolocalization of stress proteins and extracellular matrix proteins in the rat tibia

Stress proteins (heat shock proteins [hsps]) serve a number of protective functions, including protection from apoptosis and acting as chaperones during protein biosynthesis. For example, hsp 27 has been defined as a chaperone for the G3 domain of aggrecan, while hsp 47 is the chaperone for type I collagen. Separate cytoprotective roles for hsp 27 and hsp 70 have been demonstrated. The aim of this study was to define the expression of hsps in osteoblastic and chondrocytic cells of the growing rat long bone in relationship to the immunohistochemical localization of aggrecan, type I collagen and the presence of fragmented DNA that defines apoptotic events, Tibiae were harvested from Fisher 344 rats (n=6) and fixed in 10% buffered formalin. Samples were decalcified in 10% EDTA, bisected, and processed for histologic examination. Sections (5 mm) were immunohistochemically stained using a streptavidin-biotin detection method, Go-localization of hsps with apoptosis was achieved using the TUNEL procedure, In the rat tibia growth plate, aggrecan was generally distributed throughout cartilage and chondrocytes. However, hsp 27 expression was observed only in the lower hypertrophic chondrocytes, hsp27 was present in osteoblasts lining newly formed bone, hsp 47 staining was also prominent within these osteoblasts where collagen type I immunolocalization occurred. The inducible form of hsp 70 was localized to the osteoblastic cells lining new bone in the primary spongiosa. In cartilage, DNA fragmentation was restricted to the hypertrophic, hsp27-positive, chondrocytes. In contrast, DNA fragmentation was not co-localized with hsp27-positive osteoblastic cells of the primary spongiosa, although occasional apoptotic cells were identified. These results indicate that apoptosis is a mechanism by which hypertrophic chondrocytes are eliminated from cartilage prior to calcification, but that other mechanisms are also likely to be involved. They also suggest that hsps have cytoprotective and biosynthetic functions within osteoblasts and chondrocytes, but apoptotic signals may override these effects in some instances, resulting in apoptosis, (C) 2000 Harcourt Publishers Ltd.