Alternative mRNA Processing Occurs in the Variable Region of the Pro-α1(XI) and Pro-α2(XI) Collagen Chains

Natalia I Zhidkova,Susan K Justice,Richard Mayne

doi:10.1074/jbc.270.16.9486

Natalia I Zhidkova, Susan K Justice + Show 1 more

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https://doi.org/10.1074/jbc.270.16.9486

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Abstract

An analysis was performed of differential splicing of primary transcripts in the noncollagenous variable region located in the amino terminus of the pro-alpha 1(XI) and pro-alpha 2(XI) collagen chains. The results for the pro-alpha 2(XI) chain showed that human cartilage or fibroblasts in culture contain transcripts in which a single highly acidic exon encoding for 21 amino acids is present or absent. For the chicken pro-alpha 1(XI) chain a more complex pattern of alternative splicing was detected with six possible variants. Of special interest was the alternative use of two exons (called IIA and IIB) in which IIA encodes for 39 amino acids and is highly acidic (estimated pI = 3.2), whereas IIB encodes for 49 amino acids and is highly basic (estimated pI = 10.6). A similar alternative use of exon IIA or exon IIB was also observed for human chondrocytes. Northern blotting with probes specific for IIA or IIB showed that both exons are present in transcripts from cartilage but exon IIB is preferentially utilized in transcripts from tendon. Present results suggest that both the pro-alpha 1(XI) and pro-alpha 2(XI) chains of type XI collagen undergo limited processing in vivo and that the noncollagenous variable region is initially retained on the surface of the fibrils. Differential splicing in the variable region may potentially influence the interaction of collagen fibrils with other molecules of the extracellular matrix and more specifically with sulfated glycosaminoglycan chains or with hyaluronan. Such interactions may play a key role in establishing both the organization of the collagen fibrils within the extracellular matrix and in limiting the diameter of collagen fibrils.

Highlights

The nucleotide sequences reported in this paper have been submitted to the GenBankTM IEMBL Data Bank with accession numbers L38955 for chicken pro-a.l(Xl) and L38956 for human pro-a.l(Xl), exon IIB
A function for the type VIXI collagen family was suggested from in vitro experiments which demonstrated that type V collagen will limit the diameter of collagen fibrils formed from type I collagen [15, 16]
Similar experiments indicating an involvement of type XI in the control of fibril diameter were reported for cartilage collagens in which type II, type IX, and type XI collagen were all found to be required for the assembly of fibrils of constant diameter [17]

Summary

Introduction

The nucleotide sequences reported in this paper have been submitted to the GenBankTM IEMBL Data Bank with accession numbers L38955 for chicken pro-a.l(Xl) and L38956 for human pro-a.l(Xl), exon IIB. Two Dutch families were recently analyzed each with an inherited chondrodysplasia resembling Stickler syndrome but without eye involvement In both families mutations in the a2(XI) chain were located showing the importance of type XI collagen in the cartilagenous structures of man [21]. The nucleotide-derived amino acid sequence of the amino terminus of the human and chicken al(V) chain [22, 24, 25], the human a2(V) chain [26], the human and bovine al(XI) chain [8, 27], and the human a2(XI) chain [28] are all available Analysis of these sequences shows that the pro-a2(V) chain is closely related to the chains of type I, II, and III collagen, whereas the. We have performe d a detailed analysis of transcripts containing the variable r egion using RT-P CR and, with additional a n alyse s of the genomic organization , report alternative mRNA processing of the pro- o lXl) and pro -a2(XI) chains

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