Ituro Inoue

Genomewide-Linkage and Haplotype-Association Studies Map Intracranial Aneurysm to Chromosome 7q11

Rupture of intracranial aneurysms (IAs) causes subarachnoid hemorrhage, a devastating condition with high morbidity and mortality. Angiographic and autopsy studies show that IA is a common disorder, with a prevalence of 3%-6%. Although IA has a substantial genetic component, little attention has been given to the genetic determinants. We report here a genomewide linkage study of IA in 104 Japanese affected sib pairs in which positive evidence of linkage on chromosomes 5q22-31 (maximum LOD score [MLS] 2.24), 7q11 (MLS 3.22), and 14q22 (MLS 2.31) were found. The best evidence of linkage is detected at D7S2472, in the vicinity of the elastin gene (ELN), a candidate gene for IA. Fourteen distinct single-nucleotide polymorphisms (SNPs) were identified in ELN, and no obvious allelic association between IA and each SNP was observed. The haplotype between the intron-20/intron-23 polymorphism of ELN is strongly associated with IA (P=3.81x10-6), and homozygous patients are at high risk (P=.002), with an odds ratio of 4.39. These findings suggest that a genetic locus for IA lies within or close to the ELN locus on chromosome 7.

Regulation of Geminin and Cdt1 expression by E2F transcription factors

Geminin and Cdt1 play an essential role in the initiation of DNA replication, by regulating the chromatin loading of the MCM complex. In this study, we showed that the transcription of human Geminin and Cdt1, as well as that of MCM7, is activated by transcription factors E2F1–4, but not by factors E2F5–7. Analysis of various Geminin and Cdt1 promoter constructs showed that an E2F-responsive sequence in the vicinity of the transcription initiation site is necessary for the transcriptional activation. The promoter activity for human Geminin was activated by the E7, but not E6, oncogene of human papillomavirus type 16. While E2F1-induced activation of human Cdt1 gene transcription was suppressed by pRb, but not by p107 or p130, its E2F4-induced activation was suppressed by pRb, p107, and p130. Furthermore, the promoter activities of human Geminin and Cdt1 were demonstrated to be growth-dependent. Taken together, the results demonstrate that Geminin and Cdt1 constitute targets for various members of the E2F family of transcription factors, and that expression of Geminin and Cdt1 is perhaps mediated by the activation of a pRb/E2F pathway.

Linkage and association analyses of the osteoprotegerin gene locus with human osteoporosis

AbstractOsteoprotegerin (OPG), a secreted glycoprotein and a member of the tumor necrosis factor receptor superfamily, is considered to play an important role in the regulation of bone resorption by modifying osteoclast differentiation. Overexpression of OPG in mice has been reported to result in osteopetrosis, whereas targeted disruption of OPG in mice has been associated with osteoporosis. Accordingly, OPG could be a strong candidate gene for susceptibility to human osteoporosis. Here, we analyzed whether OPG is involved in the etiology of osteoporosis using both linkage and association analyses. We recruited 164 sib pairs in Gunma prefecture, which is located in the central part of Honshu (mainland Japan), for a linkage study, and 394 postmenopausal women in Akita prefecture, which is in the northern part of Honshu, for an association study. We identified two microsatellite polymorphisms in the linkage study, and six single-nucleotide polymorphisms (SNPs) in the OPG region for the association study. Although, no evidence of significant linkage between OPG and osteoporosis was found, a possible association of one SNP, located in the promoter region of the gene, was identified. A haplotype analysis with the six SNPs revealed that four major haplotypes account for 71% of the alleles in the Japanese population.

Functional impact of human collagen α2 (XI) gene polymorphism in pathogenesis of ossification of the posterior longitudinal ligament of the spine

Ossification of the posterior longitudinal ligament (OPLL) of the spine is the leading cause of myelopathy in Japan. In earlier studies, we provided genetic linkage and allelic association evidence of distinct differences in the human collagen α2(XI) gene (COL11A2) that might constitute inherited predisposition to OPLL.(1) In the present study, a strong allelic association with non‐OPLL (p = 0.0003) was observed with an intron 6 polymorphism [intron 6 (−4A)], in which the intron 6 (−4A) allele is more frequently observed in non‐OPLL subjects than in OPLL patients. In addition, a newly identified polymorphism in exon 6 [exon 6 (+28A)] was in linkage disequilibrium with the intron 6 (−4A). The functional impact of the polymorphisms was analyzed by comparing the differences in messenger RNA (mRNA) splicing by reverse‐transcription polymerase chain reaction (RT‐PCR) analysis in cultured cells from the interspinous ligament and an in vitro exon trapping study. The intron 6 (−4A) allele resulted in skipping exon 6 and retaining exon 7, while the exon 6 (+28A) allele was not associated with alteration in mRNA splicing. Similar mRNA species were observed in undifferentiated osteoblast (Ob) cells and in cells from posterior longitudinal ligament of non‐OPLL subjects. The region containing exons 6‐8 is an acidic subdomain presumably exposed to the surface that could interact with molecules of the extracellular matrix. Accordingly, retaining exon 7 together with removal of exon 6 observed in intron 6 (−4A) could play a protective role in the ectopic ossification process because the same pattern was observed in undifferentiated Ob cells and nonossified posterior longitudinal ligament cells.

Thymidine phosphorylase inhibits apoptosis induced by cisplatin.

An angiogenic factor, platelet-derived endothelial cell growth factor/thymidine phosphorylase (PD-ECGF/TP), stimulates the chemotaxis of endothelial cells and confers resistance to apoptosis induced by hypoxia. 2-Deoxy-D-ribose, a degradation product of thymidine generated by TP, partially prevents hypoxia-induced apoptosis. TP is expressed at higher levels in tumor tissues compared to the adjacent non-neoplastic tissues in a variety of human carcinomas. High expression of TP is associated with an unfavorable prognosis. To investigate the effect of TP on cisplatin-induced apoptosis, human leukemia Jurkat cells were transfected with wild-type or mutant (L148R) TP cDNA. TP inhibited a number of steps in the cisplatin-induced apoptotic pathway, activation of caspases 3 and 9 and mitochondrial cytochrome c release. These findings suggest a mechanism by which TP confers resistance to apoptosis induced by cisplatin. Moreover, mutant TP that has no enzymatic activity also suppressed cisplatin-induced apoptosis. These findings indicate that TP has cytoprotective functions against cytotoxic agents which are independent of its enzymatic activity.

Characterization of six base pair deletion in the putative HNF1-binding site of human PXR promoter

AbstractPregnane X receptor (PXR) regulates transcription of drug metabolism genes such as CYP3A4 and MDR1. Several species of PXR transcripts have been reported, including hPAR-2 with an extended amino-terminus. Database search identified a 6-bp deletion at the putative HNF1 binding element on the proximal region flanking to the hPAR-2 transcription start site. Aspirin-induced asthma (AIA) is a typical drug-induced phenotype due to aspirin or nonsteroidal antiinflammatory drugs, and these drugs are metabolized by CYP2C9 and UGT1A6, which are regulated by PXR. We examined a possible association between the 6-bp deletion variant and AIA; 129 AIA patients and 117 controls were genotyped, and no allelic association was observed. Characterization of the hPAR-2 promoter revealed that the proximal region of 1.5-kb from the transcription start site conferred a promoter activity and that the 6-bp deletion diminished the activity. These results suggest that the putative HNF1 binding element is essential for the transcriptional activity of hPAR-2 and also, that substantial numbers of Japanese are in a deficient state. Because of the biological significance of the 6-bp deletion of PXR, the variant might potentially associate with as yet unknown phenotype.

Lineage-Specific Homogenization of the Polyubiquitin Gene Among Human and Great Apes

Ubiquitin is a highly conserved protein, and is encoded by a multigene family among eukaryote species. The polyubiquitin genes, UbB and UbC, comprise tandem multiple ubiquitin coding units without a spacer region or intron. We determined nucleotide sequences for the UbB and UbC of human, chimpanzee, gorilla, and orangutan. The ubiquitin repeat number of UbB was constant (3) in human and great apes, while that of UbC varied: 6 to 11 for human, 10 to 12 for chimpanzee, 8 for gorilla, and 10 for orangutan. The heterogeneity of the repeat number within closely related hominoid species suggests that a lineage-specific unequal crossover and/or gene duplication occurred. A marked homogenization of UbC occurred in gorilla with a low level of synonymous difference (ps). The homogenization of UbC also occurred in chimpanzee and less strikingly in human. The first and last ubiquitin coding units of UbC were clustered independently between species, and less affected by homogenization during the hominoid evolution. Therefore, the homogenization of ubiquitin coding units is likely due to an unequal crossing-over inside the ubiquitin units. The lineage-specific homogenization of UbC among closely related species suggests that concerted evolution has a key role in the short-term evolution of UbC.

Molecular cloning and functional analysis of a factor that binds to the proximal promoter of human angiotensinogen

AbstractA significant association has been reported between a common variant in the angiotensinogen gene (AGT), allele T235, and essential hypertension. In subsequent work, it was found that another variant, the presence of an adenine instead of a guanine 6 bp upstream from the initiation site of transcription, was in absolute linkage disequilibrium with T235. The nucleotide substitution at the −6 position affected the formation of DNA-protein complexes in gel mobility shift assays and the basal transcription of AGT in transactivation experiments. We have further examined the potential impact of this polymorphism on AGT promoter function. In ultraviolet cross-linking analysis, 150- and 75-kDa proteins bound to the AGT proximal promoter. The possible involvement of factors that bind to GC-rich domains, including Sp1, Sp3, and AP2, was not supported by gel mobility shift assays. Screening an expression library with a double-stranded DNA segment centered on −6 led to the isolation of cDNA clones encoding the YB1 protein. The specificity of the interaction of YB1 with the proximal promoter of AGT was verified by Southwestern blotting and gel mobility shift assays. In cotransfection experiments, YB1 reduced basal AGT promoter activity in a dose-dependent manner. Although these observations suggest a possible role for YB1 in modulating AGT expression, this function is likely to occur in the context of complex interactions involving other nuclear factors. The work illustrates the challenge of developing a molecular understanding of the relationship between common genetic variants and conditions that are only partly caused by them.