Abstract
The constitution and biophysical properties of extracellular matrices can dramatically influence cellular phenotype during development, homeostasis, or pathogenesis. These effects can be signaled through a differentially regulated assembly of collagen fibrils, orchestrated by a family of collagen-associated small leucine-rich proteins (SLRPs). In this report, we describe the tissue-specific expression and function of a previously uncharacterized SLRP, chondroadherin-like (CHADL). We developed antibodies against CHADL and, by immunohistochemistry, detected CHADL expression mainly in skeletal tissues, particularly in fetal cartilage and in the pericellular space of adult chondrocytes. In situ hybridizations and immunoblots on tissue lysates confirmed this tissue-specific expression pattern. Recombinant CHADL bound collagen in cell culture and inhibited in vitro collagen fibrillogenesis. After Chadl shRNA knockdown, chondrogenic ATDC5 cells increased their differentiation, indicated by increased transcript levels of Sox9, Ihh, Col2a1, and Col10a1. The knockdown increased collagen II and aggrecan deposition in the cell layers. Microarray analysis of the knockdown samples suggested collagen receptor-related changes, although other upstream effects could not be excluded. Together, our data indicate that the novel SLRP CHADL is expressed in cartilaginous tissues, influences collagen fibrillogenesis, and modulates chondrocyte differentiation. CHADL appears to have a negative regulatory role, possibly ensuring the formation of a stable extracellular matrix.
Highlights
We investigated whether recombinant CHADL (Fig. 3B) could influence collagen fibrillogenesis in vitro
Influence of extracellular matrices on cellular behavior depends significantly on the structure of the collagenous matrix. This structure can be modulated by a family of collagenbinding small leucine-rich proteins (SLRPs), whose temporospatially regulated expression contributes to the fine regulation of the growing collagen fibrils [1,2,3, 5,6,7, 11, 13]
The expression in embryonic tissues did not appear until E13.5, correlating with the onset of extracellular matrix production and chondrogenic differentiation
Summary
The constitution and biophysical properties of extracellular matrices can dramatically influence cellular phenotype during development, homeostasis, or pathogenesis These effects can be signaled through a differentially regulated assembly of collagen fibrils, orchestrated by a family of collagen-associated small leucine-rich proteins (SLRPs). Our data indicate that the novel SLRP CHADL is expressed in cartilaginous tissues, influences collagen fibrillogenesis, and modulates chondrocyte differentiation. Decades, several homologous small leucine-rich proteins (SLRPs) have been identified and functionally evaluated Many of these proteins are extracellularly associated with collagen and can influence collagen fibrillogenesis in vitro [1], for example decorin, biglycan, fibromodulin, and lumican. We detected CHADL primarily in extracellular matrices of cartilage tissues and found it to be associated with collagen and influence chondrocyte differentiation in vitro
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