Identification and characterization of three members of the human metallocarboxypeptidase gene family

Amino acid homology searches of the human genome revealed three members of the metallocarboxypeptidase (metallo-CP) family that had not been described in the literature in addition to the 14 known genes. One of these three, named CPA5, is present in a gene cluster with CPA1, CPA2, and CPA4 on chromosome 7. The cDNA encoding a mouse homolog of human CPA5 was isolated from a testis library and sequenced. The deduced amino acid sequence of human CPA5 has highest amino acid sequence identity (60%) to CPA1. Modeling analysis shows the overall structure to be very similar to that of other members of the A/B subfamily of metallocarboxypeptidases. The active site of CPA5 is predicted to cleave substrates with C-terminal hydrophobic residues, as do CPA1, -2, and -3. Using Northern blot analysis, CPA5 mRNA is detected in testis but not in kidney, liver, brain, or lung. In situ hybridization analysis shows that CPA5 is localized to testis germ cells. Mouse pro-CPA5 protein expressed in Sf9 cells using the baculovirus system was retained in the particulate fraction of the cells and was not secreted into the media. Pro-CPA5 was not enzymatically active toward standard CPA substrates, but after incubation with prohormone convertase 4 the resulting protein was able to cleave furylacryloyl-Gly-Leu, with 3-4-fold greater activity at pH 7.4 than at 5.6. Two additional members of the human CP gene family were also studied. Modeling analysis indicates that both contain the necessary amino acids required for enzymatic activity. The CP on chromosome 8 is predicted to have a CPA-like specificity for C-terminal hydrophobic residues and was named CPA6. The CP on chromosome 2 is predicted to cleave substrates with C-terminal acidic residues and was named CPO.     

Quantitative multiplex real-time PCR for the sensitive detection of interferon beta gene induction and viral suppression of interferon beta expression

Interferon-beta (IFN-beta) protein and activity can be detected by enzyme immunoassays and biological assays. However, precise quantification of low IFN-beta mRNA concentrations, which is advantageous for investigating IFN-beta gene expression in small tissue samples or during the early stage of a virus infection, remains a challenge. Therefore, we established a quantitative real-time PCR (qPCR) for IFN-beta and the housekeeping gene porphobilinogen deanimase (PBGD) in separated assays as well as in a multiplex procedure. Sensitivity for both the templates was less than 20 copies with an intra- and interassay variability of less than 5%. IFN-beta qPCR was utilized to optimize IFN-beta induction with dsRNA polyinosic-polycytidylic acid (poly I:C), delivered by a liposomal transfection agent for reproducible but low, non-cell-toxic IFN-beta concentrations. For studying coxsackievirus B3 (CVB3) interference with IFN-beta expression, CVB3 infected fibroblasts were induced with poly I:C. A significant reduction of IFN-beta mRNA but not PBGD mRNA was demonstrated 5 h after CVB3 infection, indicating a specific inhibition of IFN-beta expression by CVB3 on the mRNA level, in addition to previously reported effects on the translation/post-translation level. In conclusion, sensitive IFN-beta/PBGD multiplex qPCR proved to be a useful tool to study viral interaction with IFN-beta expression.     

Identification of two new members of the CSMD gene family

CSMD1 is a putative suppressor of squamous cell carcinomas mapping to human chromosomal region 8p23. We have cloned two new members of this gene family, CSMD2 and CSMD3. The three CSMD proteins have very similar structures, each consisting of 14 CUB domains separated from one another by a sushi domain, an additional uninterrupted array of sushi domains, a single transmembrane domain, and a short cytoplasmic tail. CUB and sushi domains are thought to be sites of protein-protein or protein-ligand interactions, suggesting that CSMD proteins are either transmembrane receptors or adhesion proteins. The cytoplasmic tail sequences are highly conserved within the vertebrate lineage. CSMD2 maps to a chromosomal region that may contain a suppressor of oligodendrogliomas, yet its expression is elevated in some head and neck cancer cell lines. Functional overlap between the CSMD1 and the CSMD2 proteins may modify the phenotype resulting from the loss of either protein in tumors.     

Identification of three new members of the phospholipid scramblase gene family

Phospholipid (PL) scramblase is a 35 kDa protein that is thought to mediate Ca2+-induced bidirectional transbilayer movement of plasma membrane phospholipids in activated, injured, or apoptotic cells. We recently reported the molecular cloning of a PL scramblase of human (HuPLSCR1) and mouse origin, respectively. In the present study, the gene for HuPLSCR1 was cloned from a human genomic library. The gene size is 29.7 kb and includes nine exons. Analysis of the 5' flanking genomic sequence with luciferase reporter constructs located the promoter to a region spanning from -95 to +60 of the first (untranslated) exon. Furthermore, we report the molecular cloning of three additional novel cDNAs encoding proteins with high homology to HuPLSCR1. The predicted open reading frames encode proteins with 59% (HuPLSCR2; 224 aa), 47% (HuPLSCR3; 295 aa) and 46% (HuPLSCR4; 329 aa) identity, respectively, to HuPLSCR1. All members of the PLSCR gene family conserve those residues contained in the segment of the PLSCR1 polypeptide that was previously shown to bind Ca2+. With the exception of HuPLSCR2, these proteins also each contain multiple PXXP motifs and a PPXY motif located near the N-terminus, implying the potential for interaction with SH3 or WW domain-containing proteins, respectively. HuPLSCR1, 2, and 4 were found to be closely clustered on chromosome 3 (3q23), whereas HuPLSCR3 is located on chromosome 17. Northern blots revealed that the expression of HuPLSCR2 is restricted to testis, whereas HuPLSCR1, 3 and 4 are expressed in most of the 16 tissues examined. Notable exceptions were HuPLSCR4, which was not detected in peripheral blood lymphocytes, and HuPLSCR1 and HuPLSCR3, which were not detected in brain.     

Changes in the conformation of the interferon beta gene during differentiation and induction

DNase I sensitivity was used to investigate the chromatin conformation of the interferon beta gene during differentiation of the mouse teratocarcinoma cell line PC13 . These cells do not produce interferon upon viral induction in their undifferentiated state, but do so on differentiation from stem cells to endoderm. Only in induced differentiated cells were the interferon beta genes digested by DNase I. A similar effect was seen in a line of human cells ( MG63 ) upon induction. We conclude that it is induction of interferon production that brings about the change in the DNase I sensitivity of these genes, rather than differentiation.     

Sequence analysis of members of the human Ig VH4 gene family derived from a single VH locus. Identification of novel germ-line members.

We have generated a mouse x human heterohybridoma that contains a single copy of chromosome 14 and, thus, a haploid set of Ig VH genes. This cell line was used to investigate the germ-line content and nucleotide sequences of members of the VH4 gene family in a polymerase chain reaction-based approach. The analysis of 58 full-length sequences revealed the presence of 12 different germ-line VH4 genes, each of which is potentially functional. These germ-line VH4 genes were compared with the nucleotide sequences of published VH4 genes. Three VH4 genes were 100% identical to previously published sequences and belong to a group of VH4 genes that are strongly conserved and highly prevalent in the human population. Three VH4 genes in our collection displayed greater than 99.3% sequence identity with reported germ-line VH4 sequences and likely represent allelic counterparts of these genes. Six genes displayed less than 97.2% sequence identity with published VH4 genes and were identified as novel members of the human VH4 gene family or more distantly related alleles of known VH4 genes. Collectively, these data suggest that, overall, the human VH4 gene family may be more diverse than hitherto assumed, whereas a number of individual members are nonpolymorphic and extremely well conserved.     

Identification of members of the P-glycoprotein multigene family.

Overproduction of P-glycoprotein is intimately associated with multidrug resistance. This protein appears to be encoded by a multigene family. Thus, differential expression of different members of this family may contribute to the complexity of the multidrug resistance phenotype. Three lambda genomic clones isolated from a hamster genomic library represent different members of the hamster P-glycoprotein gene family. Using a highly conserved exon probe, we found that the hamster P-glycoprotein gene family consists of three genes. We also found that the P-glycoprotein gene family consists of three genes in mice but has only two genes in humans and rhesus monkeys. The hamster P-glycoprotein genes have similar exon-intron organizations within the 3' region encoding the cytoplasmic domains. We propose that the hamster P-glycoprotein gene family arose from gene duplication. The hamster pgp1 and pgp2 genes appear to be more closely related to each other than either gene is to the pgp3 gene. We speculate that the hamster pgp1 and pgp2 genes arose from a recent gene duplication event and that primates did not undergo this duplication and therefore contain only two P-glycoprotein genes.     

Identification of four new members of the rat prolactin/growth hormone gene family.

The rodent prolactin (PRL)/growth hormone (GH) gene family currently consists of at least 14 distinct genes that are expressed mainly in pituitary, uterus, and/or placenta. We report here the identification of novel four members from rat with significant homology to PRL. The encoding proteins are not homologs of other known members of this hormone family. The four new cDNAs were assigned to PRL family based on sequence homology and were referred to as PRL-like protein-I (PLP-I), PLP-J, PLP-K, and PLP-L, following the current naming order of rodent PLP family, where PLP-H is the most recent gene. They encode amino acids with 211-228 amino acids, and 34-38% identity with PRL. All have one or two N-linked glycosylation sites. Among the examined rat tissues by Northern blot analysis, only PLP-I was expressed in testis. Our results indicate that the rodent PRL/GH gene family is large with at least 18 distinct genes.     

Identification and gene organization of three novel members of the IL-1 family on human chromosome 2

Members of the IL-1 family of cytokines are important in mediating inflammatory responses. The genes encoding IL-1alpha, IL-beta, and the IL-1 receptor antagonist (IL-1Ra) are clustered within 450 kb on human chromosome 2q. By searching the EST databases and sequencing this region of chromosome 2, we have identified three novel genes that show homology to the IL-1 family, which we have named IL-1-related protein 1, 2, and 3 (IL-1RP1, IL-1RP2, and IL-1RP3). All three genes contain a signature motif common to the IL-1 family and appear to be more closely related to IL-1Ra. Similar to the intracellular form of IL-1Ra, these genes lack conventional hydrophobic signal sequences. The expression of these genes appears to be highly restricted to various epithelial cell populations. Our results demonstrate the existence of additional IL-1 gene family members within the previously defined IL-1 cluster and point to this region of chromosome 2 as an evolutionary hotspot for IL-1 gene duplication. These genes may prove to have an important role in inflammatory responses.     

Identification of eight members of the Argonaute family in the human genome

A number of genes have been identified as members of the Argonaute family in various nonhuman organisms and these genes are considered to play important roles in the development and maintenance of germ-line stem cells. In this study, we identified the human Argonaute family, consisting of eight members. Proteins to be produced from these family members retain a common architecture with the PAZ motif in the middle and Piwi motif in the C-terminal region. Based on the sequence comparison, eight members of the Argonaute family were classified into two subfamilies: the PIWI subfamily (PIWIL1/HIWI, PIWIL2/HILI, PIWIL3, and PIWIL4/HIWI2) and the eIF2C/AGO subfamily (EIF2C1/hAGO1, EIF2C2/hAGO2, EIF2C3/hAGO3, and EIF2C4/hAGO4). PCR analysis using human multitissue cDNA panels indicated that all four members of the PIWI subfamily are expressed mainly in the testis, whereas all four members of the eIF2C/AGO subfamily are expressed in a variety of adult tissues. Immunoprecipitation and affinity binding experiments using human HEK293 cells cotransfected with cDNAs for FLAG-tagged DICER, a member of the ribonuclease III family, and the His-tagged members of the Argonaute family suggested that the proteins from members of both subfamilies are associated with DICER. We postulate that at least some members of the human Argonaute family may be involved in the development and maintenance of stem cells through the RNA-mediated gene-quelling mechanisms associated with DICER.