Identification and characterization of a transcript for a novel Rac GTPase-activating protein in terminally differentiating 3T3-L1 adipocytes

Using differential display, we sought to identify novel genes expressed in the early stages of 3T3-L1 adipocyte differentiation. A gene which we have named "band25" was identified, and a full-length cDNA sequence was assembled. Sequence analysis revealed that the 2842-bp cDNA encodes a putative 628-amino acid protein product, which is a member of the GTPase-activating protein (GAP) family. This gene may be the murine homolog of the human MgcRacGAP protein, which was identified in male germ cells. Other closely related proteins include the Drosophila protein Rotund, several chimerins, and the human breakpoint cluster region (Bcr) protein. These GAP proteins all specifically inactivate Rac, a member of the Ras-like family of proteins. A consensus sequence for a diacyl glycerol/phorbol ester-binding domain was also found in the Band25 sequence. The expression of band25 mRNA is regulated during the differentiation of both adipocytes and myoblasts. Its mRNA was shown to be expressed at a low level in confluent 3T3-L1 preadipocytes and in differentiated 3T3-L1 adipocytes. Expression of band25 was increased 15.5 fold by 24 h after the induction of differentiation, when 3T3-L1 cells undergo several rounds of postconfluent cell division. Expression was also high in growing 3T3-L1 and C2C12 cells but decreased progressively as C2C12 cells underwent differentiation. These observations suggest that the expression of band25 is growth regulated and that the protein could play a role in the regulation of growth-related processes.     

Characterization and expression of the gene encoding membralin, an evolutionary conserved protein expressed in the central nervous system

We have identified a novel gene that encodes an evolutionary conserved protein that we name membralin since it contains multiple transmembrane regions. The human gene C19orf6 localizes to chromosome 19p13.3. Splice variant membralin-1 is encoded by 11 exons, translating into 620 amino acids. In addition, we found evidence for two additional splice variants in the human. The mouse gene ORF61 localizes to chromosome 10. We cloned two splice variants in mouse: membralin-1, which is encoded by 12 exons, translating into 574 amino acids, and membralin-2, which translates into 598 amino acids. The existence of rat membralin-1 (574 amino acids long) is, so far, only supported by in situ hybridization result, whereas the existence of rat membralin-2 (598 amino acids long) is strongly supported by overlapping ESTs. Gene homologues were also identified in fruit-fly (CG8405, chromosome 2R 52; two splice variants), nematode (chromosome III), and Arabidopsis thaliana (chromosome 1). Sequence analysis revealed no closely related genes, suggesting that membralin represents the sole member of a unique protein family.     

C21orf5, a New Member of Dopey Family Involved in Morphogenesis, Could Participate in Neurological Alterations and Mental Retardation in Down Syndrome

Availability of the human genome sequence promises importantprogress in the understanding of human pathologies, particularlyfor multifactorial diseases. Among these, Down syndrome (DS)is the most frequent genetic cause of mental retardation. Acritical region of chromosome 21, the Down syndrome ChromosomalRegion-1 (DCR-1), is responsible for many features of the DSphenotype including mental retardation. We studied DCR-1 C21orf5as a new candidate gene for DS considering its restricted expressionin key brain regions altered in DS patients and involved inlearning and memory processes. To elucidate C21orf5 molecularfunction, we performed a comparative study of protein sequencesin several species and showed that C21orf5 represents a newmember of the Dopey leucine zipper-like family. The C21orf5C-termini contains two highly conserved leucine-like zipperdomains in invertebrate and vertebrate species. Evolution analysisindicated a common ancestral origin of these protein sequencesalso suggesting a conserved function of this gene throughoutphylogenesis. Mutations of the known C21orf5 homologous genesAspergillus nidulans DopA, Saccharomyces cerevisiae Dop1 andCaenorhabditis elegans pad1, determine morphological abnormalities.We studied transgenic mice carrying the human C21orf5 gene andwe showed that this gene is overexpressed in brain regions byin situ hybridization and by real-time RT–PCR experiments.Interestingly, we also showed that these transgenic mice havean increased density of cortical cells overexpressing C21orf5.Similarly, DS patients have an altered lamination pattern intheir cortex. Considering together our and previous findings,we suggest that the human dopey family member, C21orf5, couldplay a role in brain morphogenesis and, when overexpressed,it could participate in neurological features and mental retardationobserved in DS patients.     

Novel genes involved in canonical Wnt/beta-catenin signaling pathway in early Ciona intestinalis embryos

We report here characterization of five genes for novel components of the canonical Wnt/ β -catenin signaling pathway. These genes were identified in the ascidian Ciona intestinalis through a loss-of-function screening for genes required for embryogenesis with morpholinos, and four of them have counterparts in vertebrates. The five genes we studied are as follows: Ci-PGAP1 , a Ciona orthologue of human PGAP1 , which encodes GPI (glycosylphosphatidylinositol) inositol-deacylase, Ci-ZF278 , a gene encoding a C2H2 zinc-finger protein, Ci-C10orf11 , a Ciona orthologue of human C10orf11 that encodes a protein with leucine-rich repeats, Ci-Spatial/C4orf17 , a single counterpart for two human genes Spatial and C4orf17 , and Ci-FLJ10634 , a Ciona orthologue of human FLJ10634 that encodes a member of the J-protein family. Knockdown of each of the genes mimicked β -catenin knockdown and resulted in suppression of the expression of β -catenin downstream genes ( Ci-FoxD , Ci-Lhx3 , Ci-Otx and Ci-Fgf9/16/20 ) and subsequent endoderm formation. For every gene, defects in knockdown embryos were rescued by overexpression of a constitutively active form, but not wild-type, of Ci- β -catenin. Dosage-sensitive interactions were found between Ci-β-catenin and each of the genes. These results suggest that these five genes act upstream of or parallel to Ci- β -catenin in the Wnt/ β -catenin signaling pathway in early Ciona embryos.     

Antitumor effects of a xenogeneic survivin bone marrow derived dendritic cell vaccine against murine GL261 gliomas

Survivin is a member of the inhibitor of apoptosis protein family. Gliomas and many other tumors express survivin at high levels; whereas, normal fully differentiated cells generally do not. Therefore, survivin represents a tumor-specific target for cancer vaccine therapy. It has been shown that it is possible to produce a MHC-I-restricted cellular immunologic response to survivin vaccines. To study differences in immunogenicity between murine and human survivin proteins, we vaccinated C57BL/6 mice with bone marrow dendritic cells (BMDC) transfected with expression vectors containing the murine and human survivin genes. Mice vaccinated with BMDCs expressing a truncated human survivin protein developed cytotoxic T lymphocyte to subcutaneous GL261 glioma cells and exhibited prolonged tumor-free survival compared to mice vaccinated with BMDCs transfected with vector alone (P<0.01). While mice challenged with intracerebral GL261 cells had increased survival, no cures were observed. In contrast, vaccinated mice that fully resisted subcutaneous tumor challenge were rendered resistant to intracerebral GL261 re-challenge. BMDCs transfected with the full-length human survivin molecule were significantly more effective at prolonging survival than BMDCs expressing the full-length murine survivin gene (P=0.0175). Therefore, xenogeneic differences between human and murine sequences might be exploited to develop more immunogenic tumor vaccines.     

Genomic construct and mapping of the gene for CMAP (leukocystatin/cystatin F, CST7) and identification of a proximal novel gene, BSCv (C20orf3)

It is proposed that CMAP (leukocystatin/cystatin F, HGMW-approved symbol CST7) expression is correlated with the metastatic potential of malignant tumors. FISH analysis of human and murine CMAP revealed the genomic loci 20p11.21-p11.22 of the human family 2 cystatin cluster and mouse chromosome region 2G1-G3, respectively. Like murine CMAP, the human CMAP gene is constructed from four divided exons, all of which encode the functional domains of the putative translational product. Based on the computational analysis, a novel gene weakly similar to the plant strictosidine synthase, named BSCv (HGMW-approved symbol C20orf3), was identified on the opposite allele at a distance of a few kilobases from the human CMAP gene. In between human CMAP and the BSCv gene, there is a unique tandem repeat sequence. CpG-rich island characteristics and GC-box features normally observed in housekeeping genes were not seen around exon 1 of the CMAP gene, reflecting the restricted expression of CMAP in hematopoietic cells.     

Expression of a novel member of sorting nexin gene family,SNX-L,in human liver development

The sorting nexin (SNX) protein family is implicated in the regulation of receptor degradation and membrane traffic in the cell. With the aim of identifying novel genes involved in receptor degradation and recycling, we have cloned a new member of the sorting nexin gene family, human sorting nexin L, SNX-L (or SNX21). This gene includes 4 exons and 3 introns, and is located on chromosome 20q12-13.1 region, encompassing 8 kb. The full-length cDNA of SNX-L is 1,811 bp, with an open reading frame of 1,092 bp. The protein consists of 364 amino acids and encodes a 40 kDa protein. The SNX-L protein has a common PX domain shared by all SNX family members. The similarity of SNX-L PX domain to the PX consensus sequence is over 40%. PX domains have been shown to associate with specific phospholipids and membrane compartments. Expression analysis of SNX-L mRNA indicates that SNX-L is distinctly and highly expressed in fetus liver, but only weakly expressed in brain, muscle (skeleton muscle, smooth muscle, and cardiac muscle), kidney, and adrenal gland. Strong liver expression of SNX-L is maintained from 12 to 25 weeks during human fetus development, suggesting that SNX-L may be a regulatory gene involved in receptor protein degradation during embryonic liver development.     

Molecular Cloning and Characterization of a Novel Human C4orf13 Gene, Tentatively a Member of the Sodium Bile Acid Cotransporter Family

By large-scale sequencing analysis of a human fetal brain cDNA library, we isolated a novel human cDNA (C4orf13). This cDNA is 2706 bp in length, encoding a 340-amino-acid polypeptide that contains a typical SBF (sodium bile acid cotransporter family) domain and ten possible transmembrane segments. The putative protein C4orf13 shows high similarity with its orthologs in Mus musculus and Xenopus laevis. Human C4orf13 is mapped to chromosome 4q31.2 and contains 12 exons. RT-PCR analysis shows that human C4orf13 is widely expressed in human tissues, and the expression levels in liver and lung are relatively high, expression levels in placenta, kidney, spleen, and thymus are moderate, low levels of expression are detected in heart, prostate, and testis.The nucleotide sequence reported in this paper has been deposited to GenBank under accession number AY346324.