Altered Integration of Matrilin-3 into Cartilage Extracellular Matrix in the Absence of Collagen IX

Budde, Bastian; Blumbach, Katrin; Ylöstalo, Joni; Zaucke, Frank; Ehlen, Harald W.A.; Wagener, Raimund; Ala‐Kokko, Leena; Paulsson, Mats; Brückner, Peter; Grässel, Susanne

doi:10.1128/mcb.25.23.10465-10478.2005

Cited by 134 publications

(165 citation statements)

References 54 publications

(58 reference statements)

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“…Even though the total amount of type II collagen seemed to be unchanged, the findings of both the antibody staining and the extractability experiments were markedly changed in the absence of COMP and matrilin 3. We speculate that the fibril structure is altered, since both COMP and matrilin 3 bind to collagens and are known to influence fibrillogenesis and collagen volume density, respectively (4,6,9,10,12). Moreover, consistent with the histologic findings, the physical bone parameters obtained from the peripheral QCT measurements showed alterations in the metaphysis, with an elevation of trabecular bone mineral content and density (Table 1).…”

Section: Discussionsupporting

confidence: 61%

Abnormal bone quality in cartilage oligomeric matrix protein and matrilin 3 double‐deficient mice caused by increased tissue inhibitor of metalloproteinases 3 deposition and delayed aggrecan degradation

Groma¹,

Xin²,

Grskovic³

et al. 2012

Arthritis & Rheumatism

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Objective. Cartilage oligomeric matrix protein (COMP) and matrilin 3 are extracellular matrix proteins that are abundant in cartilage. As adaptor molecules, both proteins bridge and stabilize macromolecular networks consisting of fibrillar collagens and proteoglycans. Mutations in the genes coding for COMP and matrilin 3 have been linked to human chondrodysplasias, while in mice, deficiency in COMP or matrilin 3 does not cause any pronounced skeletal abnormalities. Given the similar functions of COMP and matrilin 3 in the assembly and stabilization of the extracellular matrix, our aim was to determine whether these proteins could functionally compensate for each other.Methods. To assess this putative redundancy of COMP and matrilin 3, we generated COMP/matrilin 3 double-deficient mice and performed an in-depth analysis of their skeletal development.Results. At the newborn stage, the overall skeletal morphology of the double mutants was normal, but at 1 month of age, the long bones were shortened and the total body length reduced. Peripheral quantitative computed tomography revealed increased metaphyseal trabecular bone mineral density in the femora. Moreover, the degradation of aggrecan in the cartilage remnants in the metaphyseal trabecular bone was delayed, paralleled by increased deposition of tissue inhibitor of metalloproteinases 3 (TIMP-3). The structure and morphology of the growth plate were grossly normal, but in the center, focal closures were observed, a phenotype very similar to that described in matrix metalloproteinase 13 (MMP-13)-deficient mice.Conclusion. We propose that a lack of COMP and matrilin 3 leads to increased deposition of TIMP-3, which causes partial inactivation of MMPs, including MMP-13, a mechanism that would explain the similarities in phenotype between COMP/matrilin 3 doubledeficient and MMP-13-deficient mice.The 2 major components of the cartilage extracellular matrix are the fibrillar collagens and the large hyaluronan-binding proteoglycan aggrecan. A variety of different proteins, including cartilage oligomeric matrix protein (COMP) and matrilin 3, modulate the assembly and structure of the extracellular matrix, generating complex functional networks. Matrilins are noncollagenous oligomeric extracellular matrix proteins with similar domain structure and function. Matrilin 1 and matrilin 3 are found almost exclusively in cartilage, while matrilin 2 and matrilin 4 have a broader tissue distribution. Subunits of matrilins 1 and 4 mainly form homotrimers, whereas subunits of matrilins 2 and 3 are found in homotetramers (1,2). In addition, heterotrimers consisting of matrilin 1 and matrilin 3 subunits can form. Matrilins function as adaptor proteins in the extracellular matrix and connect collagen fibrils with each other and with aggrecan (2). Via their von Willebrand type A-like domain, matrilins interact with several other matrix components, including COMP (3),

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Section: Discussionsupporting

confidence: 61%

Abnormal bone quality in cartilage oligomeric matrix protein and matrilin 3 double‐deficient mice caused by increased tissue inhibitor of metalloproteinases 3 deposition and delayed aggrecan degradation

Groma¹,

Xin²,

Grskovic³

et al. 2012

Arthritis & Rheumatism

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“…Collagen IX stabilizes the individual homogeneously occurring fibrils (Eikenberry & Bruckner, 1999) and is thought to direct the organization at the tissue level of the fibrillar network in cartilage. Interestingly, matrilin-3 can integrate into cartilage fibrils by a direct interaction with collagen IX and, as an adapter, indirectly with the cartilage oligomeric matrix protein (Budde et al, 2005). Therefore, matrilin-3 is considered an interface component, capable of interconnecting macromolecular networks and mediating interactions between cartilage fibrils and the extra fibrillar matrix (Wagener et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

Identification of differentially expressed genes in the growth plate of broiler chickens with thiram-induced tibial dyschondroplasia

Tian

Zhang

et al. 2009

Avian Pathology

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Tibial dyschondroplasia (TD) is characterized by expansion of the proximal growth plates of the tibiotarsus that fail to form bone, lack blood vessels, and contain non-viable cells. Thiram (a carbamate pesticide), when fed to young broiler chicks, induces TD with high regularity and precision. We used this experimental model to understand the cause of the defects associated with TD by selecting and identifying the genes differentially expressed in the TD growth plate of broiler chickens. Broiler chicks at 7 days of age were randomly divided into two groups. After fasting overnight, they were fed with regular diet (control) or the same diet containing 100 mg/kg thiram for 96 h to induce TD (thiram-fed). mRNA was purified from the growth plates of control and thiram-fed broilers. Forward and reverse-subtracted cDNA libraries were generated by suppression subtractive hybridization technology. Ten selected genes from cDNA libraries were identified by real-time quantitative polymerase chain reaction. All were differentially expressed in TD growth plates (PB0.05 or PB0.01). The levels of collagen type X (Col X), pro-alpha-1 collagen type I (Col I a1), collagen type IX (Col IX), NADH dehydrogenase (NADH DH), cytochrome C oxidase subunit III (COX III), enolase 1, alpha (ENO1), carbonic anhydrase II (CA2) and heat shock protein 90 (Hsp90) mRNA transcripts were upregulated, while the expression levels of Matrilin 3 (MATN3) and chondromodulin-I (ChM-I) were downregulated. Col I and Hsp90 were detected by immunohistochemistry at different stages. Given that these genes are involved in matrix formation, endochondral ossification, developmental regulation, electron transport in the mitochondrial respiratory chain and vascularization, our findings may provide new insights into understanding the pathogenesis of TD.

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“…Taken together, these results clearly show that secreted MATN3 exerts down-regulation of its own expression, both in HCS-2/8 cells and PHCs. Interestingly, in type IX collagen-knockout mice (33), increased solubility of MATN3 was accompanied by decreased MATN3 levels (12). Therefore, the extent of autoregulation of MATN3 expression should be attributed to the size of the soluble pool of secreted MATN3.…”

Section: Discussionmentioning

confidence: 99%

“…Detailed characterization of MATN3 remains elusive, however. On the one hand, MATN3 is known to interact directly with the pericellular matrix, in which it is believed to play a role in interconnecting macromolecular networks (12)(13)(14)(15). On the other hand, coated MATN3 was demonstrated to promote settling of primary human chondrocytes (PHCs) (16), suggesting that MATN3 interacts physically with cells.…”

mentioning

confidence: 99%

Increased expression of matrilin‐3 not only in osteoarthritic articular cartilage but also in cartilage‐forming tumors, and down‐regulation of SOX9 via epidermal growth factor domain 1–dependent signaling

Vincourt¹,

Vignaud²,

Lionneton³

et al. 2008

Arthritis & Rheumatism

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Conclusion. Aberrant expression and processing of MATN3 are hallmarks of conventional cartilaginous neoplasms. A particular step in the maturation of MATN3 limits its processing through the secretion machinery, resulting in its intracellular accumulation upon increased expression. Soluble, secreted MATN3, however, down-regulates SOX9 at the messenger RNA and protein levels. The first EGF-like domain of MATN3 is a critical determinant of its regulatory activity toward SOX9. These activities of MATN3 suggest that its increased expression in osteoarthritis might contribute to the degeneration of articular cartilage.Articular cartilage is mostly made of extracellular specialized collagens and proteoglycans, with physical properties that support frictionless movements and the load-bearing capacity of the joints. Homeostasis of carti-

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Altered Integration of Matrilin-3 into Cartilage Extracellular Matrix in the Absence of Collagen IX

Cited by 134 publications

References 54 publications

Abnormal bone quality in cartilage oligomeric matrix protein and matrilin 3 double‐deficient mice caused by increased tissue inhibitor of metalloproteinases 3 deposition and delayed aggrecan degradation

Abnormal bone quality in cartilage oligomeric matrix protein and matrilin 3 double‐deficient mice caused by increased tissue inhibitor of metalloproteinases 3 deposition and delayed aggrecan degradation

Identification of differentially expressed genes in the growth plate of broiler chickens with thiram-induced tibial dyschondroplasia

Increased expression of matrilin‐3 not only in osteoarthritic articular cartilage but also in cartilage‐forming tumors, and down‐regulation of SOX9 via epidermal growth factor domain 1–dependent signaling

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