Roger L. Eddy

Cloning of human lysyl hydroxylase : complete cDNA-derived amino acid sequence and assignment of the gene (PLOD) to chromosome 1p36.3-p36.2

Lysyl hydroxylase (EC 1.14.11.4), an alpha 2 dimer, catalyzes the formation of hydroxylysine in collagens by the hydroxylation of lysine residues in peptide linkages. A deficiency in this enzyme activity is known to exist in patients with the type VI variant of the Ehlers-Danlos syndrome, but no amino acid sequence data have been available for the wildtype or mutated human enzyme from any source. We report the isolation and characterization of cDNA clones for lysyl hydroxylase from a human placenta lambda gt11 cDNA library. The cDNA clones cover almost all of the 3.2-kb mRNA, including all the coding sequences. These clones encode a polypeptide of 709 amino acid residues and a signal peptide of 18 amino acids. The human coding sequences are 72% identical to the recently reported chick sequences at the nucleotide level and 76% identical at the amino acid level. The C-terminal region is especially well conserved, a 139-amino-acid region, residues 588-727 (C-terminus), being 94% identical between the two species and a 76-amino-acid region, residues 639-715, 99% identical. These comparisons, together with other recent data, suggest that lysyl hydroxylase may contain functionally significant sequences especially in its C-terminal region. The human lysyl hydroxylase gene (PLOD) was mapped to chromosome 1 by Southern blot analysis of human-mouse somatic cell hybrids, to the 1p34----1pter region by using cell hybrids that contain various translocations of human chromosome 1, and by in situ hybridization to 1p36.2----1p36.3. This gene is thus not physically linked to those for the alpha and beta subunits of prolyl 4-hydroxylase, which are located on chromosomes 10 and 17, respectively.

Interleukin 2 (IL2) is assigned to human chromosome 4

The human gene for interleukin 2 (IL2)was assigned to chromosome 4 using human-mouse somatic cell hybrids and Southern filter hybridization of cell hybrid DNA. To identify IL2,a recombinant DNA probe (pIL2-50A) was used which contained a human interleukin 2 cDNA insert which hybridized to a 3.5-kb fragment in human DNA when cleaved with the restriction enzyme EcoRL.

cDNA sequence, tissue-specific expression, and chromosomal mapping of the human slow-twitch skeletal muscle isoform of troponin I ☆

Troponin I (TnI) is a myofibrillar protein involved in the calcium-mediated regulation of striated muscle contraction. Three isoforms of TnI are known and each is expressed in a muscle fiber-type-specific manner. TnI-fast and TnI-slow are expressed exclusively in fast-twitch and slow-twitch skeletal muscle myofibers, respectively, while a third isoform, TnI-card, is expressed in both the atrium and the ventricle of the heart. An explanation of the myofiber-type-restricted expression of the troponin I multigene family will further aid in understanding how various types of striated muscle fibers are established. To initiate the study of TnI isoform gene expression, we have isolated a full-length cDNA representing the human slow-twitch skeletal muscle isoform of troponin I. Sequence comparisons demonstrate that the TnI-slow protein is highly conserved between species. Therefore, the cDNA was used as a probe to investigate the tissue-specific and developmental regulation of the TnI-slow gene in both rodent and human myogenic cells. TnI-slow message appears to be restricted to muscle tissue containing slow-twitch skeletal muscle myofibers. TnI-slow gene expression is induced in differentiated cultures of primary human muscle cells and several (but not all) myogenic cell lines. In addition, a human-specific probe prepared from the 3 untranslated region of the cDNA has been used to probe a panel of human/mouse somatic cell hybrid lines, resulting in the assignment of the human TnI-slow gene to the q12----qter region of chromosome 1. The locus is designated TNNI1.

Completion of the primary structure of the human type IV collagenase preproenzyme and assignment of the gene (CLG4) to the q21 region of chromosome 16.

The complete amino acid sequence of the human type IV collagenase preproenzyme was determined from cDNA and genomic clones. Primer extension and S1 nuclease analyses as well as nucleotide sequencing of a genomic clone indicate that the first exon has two closely spaced initiation sites for transcription and codes for 290 and 280 nt of a 5 untranslated region and a 29-residue signal peptide. The gene (CLG4) was localized to 16q21 using somatic cell hybrids and in situ hybridization.

Characterization of the human gene for a newly discovered carbonic anhydrase, CA VII, and its localization to chromosome 16 ☆

Six carbonic anhydrase (CA) isozymes (CA I-VI) in mammals and other amniotes have been described. We have isolated an additional CA gene from a human genomic library and designated its putative product carbonic anhydrase VII (CA VII). The gene is approximately 10 kb long and contains seven exons and six introns found at positions identical to those determined for the previously described CA I, CA II, and CA III genes. The finding of a 17-bp GT-rich segment in a position 28 bp downstream of the poly(A)+ signal and the high correspondence of the 5 and 3 splice sites of the six introns with consensus junction sequences are consistent with the gene being functional. The 5 flanking regions of the CA VII gene do not contain the TATA and CAAT promoter elements usually found within 100 bp upstream of transcription initiation, but do contain a TTTAA sequence 102 nucleotides upstream of the initiation codon. The 5 region of the gene (-243 to +551) is GC-rich and contains 80 CpG dinucleotides and four possible Sp1 (GGGCGG or CCGCCC) binding sites. Northern analysis has identified the salivary gland as a major site of expression. The derived amino acid sequence of the CA VII gene is 263 amino acids long and has 50, 56, and 49% identity with human CA I, CA II, and CA III, respectively. No differences were found at any of the 39 positions that have remained invariant in all mammalian CA isozymes sequenced to date. Based on analysis of interspecific somatic cell hybrids, the human CA VII gene, CA7, was assigned to chromosome 16, with localization to the long arm at the q21-23 region by in situ hybridization. This is in contrast to the location of the CA I, CA II, and CA III gene cluster on human chromosome 8 and that of the human CA VI gene on chromosome 1.

The human cystatin C gene (CST3) is a member of the cystatin gene family which is localized on chromosome 20

The fourth gene from the human cystatin gene family of salivary-type cysteine-proteinase inhibitors has been isolated and partially characterized by DNA analysis. The gene, which we name CST3, codes for human cystatin C, and has the same organization as the CST1 gene for cystatin SN and the CST2 gene for cystatin SA. Southern analysis of EcoR I digested DNAs from 32 independent somatic cell hybrid clones hybridized to a probe from CST1 demonstrated that all members of the cystatin gene family segregate with human chromosome 20. These results indicate that the genes for salivary-type cystatins and cystatin C are members of a multigene family--the cystatin gene family.

Cloning of human heparan sulfate proteoglycan core protein, assignment of the gene (HSPG2) to 1p36.1→p35 and identification of a BamHI restriction fragment length polymorphism

We have isolated a cDNA coding for the core protein of the large basement membrane heparan sulfate proteoglycan (HSPG) from a human fibrosarcoma cell (HT1080) library. The library was screened with a mouse cDNA probe and one clone obtained, with a 1.5-kb insert, was isolated and sequenced. The sequence contained an open reading frame coding for 507 amino acid residues with a 84% identity to the corresponding mouse sequence. This amino acid sequence contained several cysteine-rich internal repeats similar to those found in component chains of laminin. The HSPG cDNA clone was used to assign the gene (HSPG2) to the p36.1----p35 region of chromosome 1 using both somatic cell hybrid and in situ hybridization. In the study of the polymorphisms of the locus, a BamHI restriction fragment length polymorphism was identified in the gene. This polymorphism displayed bands of 23 and 12 kb with allele frequencies of 76 and 24%, respectively.

Chromosomal localization of the human apoprotein CI gene and of a polymorphic apoprotein AII gene

Human apoprotein(apo) CI and apo AII cDNA probes have been used to analyze the segregation of the human genes in panels of human-mouse hybrids. The apo CI (APOCI) gene segregates with chromosome 19 and the apo AII (APOA2) gene with chromosome 1. Somatic cell hybrids containing chromosome translocations were used to map the apo AII gene to the 1p21-1qter region. Human APOA2 is polymorphic for the restriction endonuclease Msp I. Comparison of human and mouse chromosome 1 reveals a conserved group including apo AII, renin and peptidase genes and suggests that APOA2 will be found distal to this group on human chromosome 1. The mouse apo AII gene is closely linked with genes that regulate HDL structure. Similar HDL regulatory genes will probably be found near human APOA2.

Chromosomal localization of an SH2-containing tyrosine phosphatase (PTPN6)

We have used panels of somatic cell hybrids and fluorescent in situ hybridization to determine the chromosomal localization of the novel nontransmembrane tyrosine phosphatase PTPN6 (protein tyrosine phosphatase, nonreceptor type 6), which contains two SH2 domains. PTPN6 maps to 12p13, a region commonly involved in leukemia-associated chromosomal abnormalities. Since PTPN6 is expressed at high levels in hematopoietic cells of all lineages and its expression is induced early in hematopoietic differentiation, altered expression and/or structure of PTPN6 may play a role in leukemogenesis.

Human collagen gene COL5A1 maps to the q34.2----q34.3 region of chromosome 9, near the locus for nail-patella syndrome.

Type V collagen is a fibrillar collagen that is widely distributed in tissues as a minor component of extracellular matrix and is usually composed of one pro alpha 2 (V) and two pro alpha 1 (V) chains. In this report, recently isolated cDNA and genomic clones, which encode the pro alpha 1 (V) chain, are used as probes for hybridization to filter-bound DNA from a panel of human-mouse hybrid cell lines and for in situ hybridization to metaphase chromosomes. These studies establish the chromosomal location of the COL5A1 gene, which encodes the pro alpha 1 (V) chain, within segment 9q34.2----q34.3. These findings add to the previously characterized dispersion of collagen genes in the human genome, as this is the first example of a collagen locus on chromosome 9. In addition, these studies place COL5A1 near the locus for the genetic disorder, nail-patella syndrome (hereditary osteo-onychodysplasia), which also maps to 9q34.