Localization of the human procollagen alpha 1(IV) gene to chromosome 13q34 by in situ hybridization.

Type IV (alpha 1 and alpha 2 chains) appears to be the only procollagen present in basement membranes. The structure of this protein is highly divergent from the interstitial and type V procollagens as exemplified by the interruptions in the Gly-X-Y region and unprocessed amino and carboxyl noncollagenous peptides. To expand our knowledge concerning the primary sequence of type IV and to investigate the factors influencing its unique distribution, we recently isolated cDNA clones coding for part of the human alpha 1(IV) chain. To determine if the alpha 1(IV) gene was cytologically linked to other procollagen genes that have been assigned to autosomes 17, 12, 7, and 2, overlapping clones covering 2.6 kilobases (kb) of the alpha 1(IV) mRNA were used together for in situ hybridization to human metaphase chromosomes. Here, we show precise localization of alpha 1(IV) at the telomere of 13q, thereby defining a fifth chromosome that contains members of this large and surprisingly dispersed multigene family.     

The complete primary structure of a nematode alpha 2(IV) collagen and the partial structural organization of its gene.

We have isolated and characterized cDNA and genomic DNA clones which encode an alpha 2(IV) collagen chain from the parasitic nematode Ascaris suum. In addition we have determined, by nucleic acid sequence analysis, the structural organization of approximately two-thirds of the gene. This analysis has shown that the gene contains at least 15 introns, and those that have been characterized range in size from 141 to 854 base pairs. The derived protein sequence contains 1763 amino acids and includes a putative 26-amino acid signal sequence. The collagenous triple-helical region contains 17 interruptions, many of which occur in the same positions as those in the human alpha 1(IV) and alpha 2(IV) chains. Comparison of the genomic DNA sequence with the cDNA sequence has revealed the presence of a sequence within the gene which appears to be an intact and normal exon that is not represented in our cDNA sequence. The presence of this putative exon raises the possibility that the A. suum alpha 2(IV) collagen gene may undergo alternative splicing.     

Use of the polymerase chain reaction to clone and sequence a cDNA encoding the bovine alpha 3 chain of type IV collagen

A novel type IV collagen, alpha 3(IV), has previously been isolated from a collagenase digest of bovine and human glomerular and lens basement membranes. The cloning and sequencing of a cDNA encoding the alpha 3(IV) chain is described here. Using the polymerase chain reaction, with primers derived from the known 27-residue bovine alpha 3(IV) amino acid sequence, a 68-base pair bovine genomic fragment (KEM68) which encodes the known peptide sequence, was synthesized. KEM68 was then used to screen a bovine lens cDNA library and a 1.5-kilobase partial cDNA clone obtained, encoding 471 residues of the bovine alpha 3(IV) chain: 238 residues from the triple helical collagenous domain and all 233 residues of the noncollagenous domain. The collagenous repeat sequence has three interruptions, coinciding with those in the alpha 1(IV) chain. The noncollagenous domain has 12 cysteine residues in identical positions to those of other type IV collagens and 71, 61, and 70% overall similarity with the human alpha 1(IV), alpha 2(IV), and alpha 5(IV) chains. The noncollagenous domain of alpha 3(IV) is of particular interest as it appears to be the component of glomerular basement membrane that reacts maximally with the Goodpasture antibody. Furthermore, such antigenicity is absent from collagenase digests of the glomerular basement membrane of some patients with Alport syndrome. The alpha 3(IV) cDNA clone described here now permits study of the molecular pathology of COL4A3 in Alport syndrome.     

Basement membrane procollagen IV and its specialized carboxyl domain are conserved in Drosophila, mouse, and human

Interaction with the extracellular matrix is important for the proliferation and differentiation of cells during development. A specialized extracellular matrix, basement membrane, is built around a scaffold of procollagen IV molecules. We report the sequence of a 2.5-kilobase cDNA which contains the carboxyl end of a Drosophila melanogaster procollagen IV. The amino acid sequence of the carboxyl-terminal domain, which forms an essential intermolecular linkage between procollagen IV molecules, is 59% identical in Drosophila and vertebrate procollagens IV, and an additional 17% of residues are conservatively substituted. This implies that the nature of the linkage is also conserved. We suggest that intermolecular junctions through procollagen IV carboxyl domains are fundamental elements of the molecular architecture of Metazoan basement membranes and have been conserved during evolution. The isolation and identification of this basement membrane collagen gene of Drosophila will help in deducing the function of procollagen IV in basement membranes.     

Biosynthesis and in vitro translation of type IV procollagens

The present paper describes how epithelial cells, cultured from bovine anterior lens capsule explants, synthesize and secrete procollagen type IV polypeptide chains alpha 1(IV) and alpha 2(IV). Metabolic labeling of these cells with [14C]proline for different time intervals and subsequent analysis by SDS/polyacrylamide gel electrophoresis revealed the presence of two polypeptide chains with apparent molecular masses of 180 kDa and 170 kDa. The procollagens were bacterial-collagenase-sensitive and were specifically immunoprecipitated by antibodies raised against the 7S domain of type IV collagen. Type IV procollagen poly(A)-rich RNA was isolated from cultured lens capsule cells and translated in a reticulocyte lysate cell-free system. Two polypeptides with apparent molecular masses of 152 kDa and 145 kDa were identified as procollagen type IV unmodified chains by gel electrophoresis, collagenase digestion and specific immunoprecipitation. During experiments in which cells were labeled in the presence of alpha, alpha'-bipyridyl, type IV procollagen appeared as one major band comigrating with a 145 kDa polypeptide on SDS-gel electrophoresis.     

Construction of a cDNA clone corresponding to mouse alpha 1(IV) procollagen

A new procedure for the synthesis of double stranded cDNA, based upon release of mRNA by "in vitro" translation, was used to clone type IV collagen. Collagen synthesizing polysomes selectively isolated from a mouse parietal yolk sac carcinoma (PYS-2) were used for translation in an heterologous cell-free system. Translation products were collagenase-sensitive and displayed an electrophoretic mobility correspondent to type IV collagen. Translation released mRNA was employed to construct a 100 base pairs long cDNA clone which hybridized to a 7,800 nucleotides long mRNA. Peptides synthesized by "in vitro" translation of hybrid selected mRNA displayed an electrophoretic mobility compatible with that of alpha 1 (IV) collagen, were sensitive to collagenase and were immunoprecipitated by anti-type IV collagen antibody.     

Chromosomal localization of the human gene for brain Ca2+/calmodulin-dependent protein kinase type IV

Cloned cDNAs have been identified as corresponding to a new brain Ca2+/calmodulin-dependent protein kinase. On the basis of structural and immunological features, we refer to this new kinase as CaM Kinase IV. Two cDNA clones were used to identify CaM Kinase IV: The downstream clone, lambda ICM-1, contains the sequence encoding the calmodulin-binding site and the second clone, lambda ICM-2, encodes a partial amino acid sequence similar to the catalytic domain of several known protein kinases. Within the calmodulin-binding site a stretch of 8 amino acids (and 9 of 10) is identical to the corresponding site in the subunits of CaM Kinase II. Southern blot analysis shows the CaM Kinase IV gene is single copy in the mouse and human genomes. Synteny analysis of Southern blot data of DNA from hamster--human hybrid cells shows that the gene is present in human chromosome 5. Hybridization of cDNA probes to metaphase spreads of human chromosomes indicates that the gene is most likely located within the region of bands q21 to q23 of chromosome 5.     

The genes coding for human pro alpha 1(IV) collagen and pro alpha 2(IV) collagen are both located at the end of the long arm of chromosome 13.

We have isolated and characterized a cDNA clone containing DNA sequences coding for the noncollagenous carboxy-terminal domain of human pro alpha 2(IV) collagen. Using this cDNA clone in both Southern blot analysis of DNA isolated from human-mouse somatic-cell hybrids and in situ hybridization of normal human metaphase chromosomes, we have demonstrated that the gene coding for human pro alpha 2(IV) collagen is located at 13q33----34, in the same position on chromosome 13 as the pro alpha 1(IV) collagen gene.     

Structure of cDNA clones coding for the entire prepro alpha 1 (III) chain of human type III procollagen. Differences in protein structure from type I procollagen and conservation of codon preferences.

Two overlapping cDNA clones that cover the complete length of the mRNA for human type III procollagen were characterized. The data provided about 2500 base pairs of sequence not previously defined for human type III procollagen. Two tripeptide sequences of -Gly-Xaa-Yaa- were identified that were not detected previously by amino acid sequencing of human type III collagen. The two additional tripeptide units, together with three previously detected, establish that the alpha 1 (III) chain is 15 amino acids longer than either the alpha 1 (I) or alpha 2 (I) chains of type I collagen. The additional tripeptide units made hydropathy plots of the N-terminal and C-terminal regions of type III collagen distinctly different from those of type I collagen. The data also demonstrated that human type III procollagen has the same third base preference in codons for glycine, proline and alanine that was previously found with human and chick type I procollagen. In addition, comparison of two cDNA clones from the same individual revealed a variation in structure in that the codon for amino acid 880 of the alpha 1 (III) chain was -CTT- for leucine in one clone and -TTT- for phenylalanine in the other.     

Complete primary structure of the alpha 1-chain of human basement membrane (type IV) collagen

We have determined the primary structure of the alpha 1(IV)-chain of human type IV collagen by nucleotide sequencing of overlapping cDNA clones that were isolated from a human placental cDNA library. The present data provide the sequence of 295 amino acids not previously determined. Altogether, the alpha 1(IV)-chain contains 1642 amino acids and has a molecular mass of 157625 Da. There are 1413 residues in the collagenous domain and 229 amino acids in the carboxy-terminal globular domain. The human alpha 1(IV)-chain contains a total of 21 interruptions in the collagenous Gly-X-Y repeat sequence. These interruptions vary in length between two and eleven residues. The alpha 1(IV)-chain contains four cysteine residues in the triple-helical domain, four cysteines in the 15-residue long noncollagenous sequence at the amino-terminus and 12 cysteines in the carboxy-terminal NC-domain.     

Identification of genomic DNA coding for chicken type II procollagen

A segment of the type II procollagen gene has been isolated by screening a lambda Charon 4A library containing fragments of chicken genomic DNA. The specific clone, LgCOL(II), was selected by hybridization using overlapping inserts from two cDNA clones which are specific for a cartilage procollagen (Vuorio, E., Sandell, L., Kravis, D., Sheffield, V. C., Vuorio, T., Dorfman, A., and Upholt, W. B. (1982) Nucleic Acids Res. 10, 1175-1192). DNA sequence analysis of LgCOL(II) in the COOH-telopeptide region of the protein, shows conclusively that this DNA corresponds to the chicken type II procollagen gene. Hybridization of cDNA probes to restriction fragment gel blots together with DNA sequence analysis have established the orientation and position of the procollagen gene within the lambda Charon 4A vector and indicate that LgCOL(II) contains approximately 6 kilobase pairs of the type II procollagen gene plus additional DNA flanking the 3' end of the gene. DNA sequence analysis shows directly that LgCOL(II) contains DNA sequences identical with those in the cDNA clones. The portion of the gene from amino acid 578 of the triple helical region to the COOH-terminal end of the protein (approximately 700 amino acids) is contained within the clone, corresponding to approximately 50% of the amino acid coding sequence of the gene. This region of the chicken alpha 1 (type II) procollagen gene is encoded within a shorter segment of the chicken genome than is the corresponding region of the alpha 2(type I) procollagen gene.