Impaired spermatogenesis and elevated spontaneous tumorigenesis in xeroderma pigmentosum group A gene (Xpa)-deficient mice

We have reported that xeroderma pigmentosum group A (Xpa) gene-knockout mice [Xpa (−/−) mice] are deficient in nucleotide excision repair (NER) and highly sensitive to UV-induced skin carcinogenesis. Although xeroderma pigmentosum group A patients show growth retardation, immature sexual development, and neurological abnormalities as well as a high incidence of UV-induced skin tumors, Xpa (−/−) mice were physiologically and behaviorally normal. In the present study, we kept Xpa (−/−) mice for 2 years under specific pathogen-free (SPF) conditions and found that the testis diminished in an age-dependent manner, and degenerating seminiferous tubules and no spermatozoa were detected in the 24-month-old Xpa (−/−) mice. In addition, a higher incidence of spontaneous tumorigenesis was observed in the 24-month-old Xpa (−/−) mice compared to Xpa (+/+) controls. Xpa (−/−) mice provide a useful model for investigating the aging and internal tumor formation in XPA patients.     

A nonsense mutation in the Xeroderma pigmentosum complementation group F (XPF) gene is associated with gastric carcinogenesis

XPF/ERCC1 endonuclease is required for DNA lesion repair. To assess effects of a C2169A nonsense mutation in XPF at position 2169 in gastric cancer tissues and cell lines, genomic DNA was extracted from blood samples of 488 cancer patients and 64 gastric tumors. The mutation was mapped using a TaqMan MGB probe. In addition, gastric cancer cell lines were transfected with mutated XPF to explore XPF/ERCC1 interaction, XPF degradation, and DNA repair by a comet assay. The C2169A mutation was not detected in 488 samples of blood genomic DNA, yet was found in 32 of 64 gastric cancer tissue samples (50.0%), resulting in a 194C-terminal amino acid loss in XPF protein and lower expression. Laser micro-dissection confirmed that this point mutation was not present in surrounding normal tissues from the same patients. The truncated form of XPF (tXPF) impaired interaction with ERCC1, was rapidly degraded via ubiquitination, and resulted in reduced DNA repair. In gastric cancers, the mutation was monoallelic, indicating that XPF is a haplo-insufficient DNA repair gene. As the C2169A mutation is closely associated with gastric carcinogenesis in the Chinese population, our findings shine light on it as a therapeutic target for early diagnosis and treatment of gastric cancer.     

The levels of repair of endonuclease III-sensitive sites, 6-4 photoproducts and cyclobutane pyrimidine dimers differ in a point mutant forRAD14, theSaccharomyces cerevisiae homologue of the human gene defective inXPA patients

In the accompanying paper we demonstrated that endonuclease III-sensitive sites in theMAT andHML loci ofSaccharomyces cerevisiae are repaired by the Nucleotide Excision Repair (NER) pathway. In the current report we investigated the repair of endonuclease III sites, 6-4 photoproducts and cyclobutane pyrimidine dimers (CPDs) in arad14-2 point mutant and in arad14 deletion mutant. TheRAD14 gene is the yeast homologue of the human gene that complements the defect in cells from xeroderma pigmentosum (XP) patients belonging to complementation group A. In the point mutant we observed normal repair of endonuclease III sites (i.e. as wild type), but no removal of CPDs at theMAT andHML loci. Similar experiments were undertaken using the recently createdrad14 deletion mutant. Here, neither endonuclease III sites nor CPDs were repaired inMAT a orHMR a. Thus the point mutant appears to produce a gene product that permits the repair of endonuclease III sites, but prevents the repair of CPDs. Previously it was found that, in the genome overall, repair of 6-4 photoproducts was less impaired than repair of CPDs in the point mutant. The deletion mutant repairs neither CPDs nor 6-4 photoproducts in the genome overall. This finding is consistent with the RAD14 protein being involved in lesion recognition in yeast. A logical interpretation is that therad14-2 point mutant produces a modified protein that enables the cell to repair endonuclease III sites and 6-4 photoproducts much more efficiently than CPDs. This modified protein may aid studies designed to elucidate the role of the RAD14 protein in lesion recognition.     

一个遗传性胰腺炎家系中新发现的胰蛋白酶原基因突变

对1个遗传性胰腺炎(hereditary pancreatitis, HP)家系中6例成员和120例无亲缘关系健康人的胰蛋白酶原基因(protease serine 1, PRSS1)进行PCR扩增, 产物纯化后测序, 结合受检者的血清肿瘤标志物、糖尿病相关生化指标以及近亲属的一般临床资料进行分析。结果发现4例家系成员PRSS1基因3号外显子区136位碱基存在C→T杂合性突变, 他们的基因型表现为野生型与突变型杂合现象, 另外在先证者PRSS1基因的3号外显子区171位碱基还存在着一个同义突变点(C→T), 而对照组和家系其他成员中未发现此两种突变, 突变阳性患者表现为乳酸、糖基化血红蛋白和糖类肿瘤标志物(CA19-9、CA125)增高。因此, PRSS1基因3号外显子区136位碱基C→T杂合性突变与该家系遗传性胰腺炎有关, 是该家系中遗传性胰腺炎的遗传易感因素。     

A novel de novo PDE4D gene mutation identified in a Chinese patient with acrodysostosis

Acrodysostosis is an extremely rare disorder at birth, that is, characterized by skeletal dysplasia with short stature and midfacial hypoplasia, which has been reported to be caused by PDE4D and PRKAR1A gene mutations. Here, a Chinese boy with acrodysostosis, ventricular septal defect, and pulmonary hypertension was recruited for our study, and his clinical and biochemical characteristics were analyzed. A novel de novo heterozygous missense mutation (NM_001104631: c.2030A>C, p.Tyr677Ser) of the PDE4D gene was detected by whole exome sequencing and confirmed by Sanger sequencing. The c.2030A>C (p.Tyr677Ser) variant was located in exon 15 of the PDE4D gene, predicted to be damaging by a functional prediction program and shown to be highly conserved among many species. Further functional analysis showed that the p.Tyr677Ser substitution changes the function of the PDE4D protein, affects its subcellular localization in transfected cells, increases PDE4 activity in the regulation of cAMP signaling and affects cell proliferation. Our study identified a novel de novo PDE4D mutation in acrodysostosis of Chinese origin that not only contributes a deeper appreciation of the phenotypic characteristics of patients with PDE4D mutations but also expands the spectrum of PDE4D mutations.     

Identification and in silico characterization of a novel gene: TPA induced trans-membrane protein

12-O-Tetradecanoylphorbol-13-acetate (TPA) is a potent tumor promoter with wide ranging, diverse, and sometimes opposite cellular effects. Using oligonucleotide microarray analysis, we have identified a novel gene that is upregulated following treatment with TPA in the pancreatic cancer cell line CD18. Real-time PCR validated the microarray results in CD18 and HeLa cells, and showed that upregulation of the gene is time- and concentration-dependent. In silico analysis showed the gene product to be a single-pass transmembrane protein of 217 residues that is localized to the endoplasmic reticulum, thus the name TPA induced trans-membrane protein (TTMP). A luciferase reporter assay demonstrated that upregulation of TTMP by TPA is triggered at the promoter level.     

A novel single-base deletion mutation of the RUNX2 gene in a Chinese family with cleidocranial dysplasia

We identified a disease-causing mutation of the RUNX2 gene in a four-generation Chinese family affected with cleidocranial dysplasia (CCD). For mutation analysis, the coding region of RUNX2 was sequenced with DNA from two patients and three unaffected family members. The RUNX2 mutation was investigated in 50 normal controls by denaturing high pressure liquid chromatography. A heterozygous single-base deletion (c.549delC) of RUNX2, which predicts a termination site at the 185th codon and leads to a stop in the runt domain of RUNX2 protein, was detected in both patients but not in the three unaffected members of the family. This mutation was also not found in 50 controls and has not been reported previously. We demonstrated that a novel mutation (c.549delC) of RUNX2 is associated with CCD in a Chinese family, adding to the repertoire of RUNX2 mutations related to CCD.     

Structural, thermodynamic, and cellular characterization of human centrin 2 interaction with xeroderma pigmentosum group C protein

Human centrin 2 (HsCen2), an EF-hand calcium binding protein, plays a regulatory role in the DNA damage recognition during the first steps of the nucleotide excision repair. This biological action is mediated by the binding to a short fragment (N847-R863) from the C-terminal region of xeroderma pigmentosum group C (XPC) protein. This work presents a detailed structural and energetic characterization of the HsCen2/XPC interaction. Using a truncated form of HsCen2 we obtained a high resolution (1.8 A) X-ray structure of the complex with the peptide N847-R863 from XPC. Structural and thermodynamic analysis of the interface revealed the existence of both electrostatic and apolar inter-molecular interactions, but the binding energy is mainly determined by the burial of apolar bulky side-chains into the hydrophobic pocket of the HsCen2 C-terminal domain. Binding studies with various peptide variants showed that XPC residues W848 and L851 constitute the critical anchoring side-chains. This enabled us to define a minimal centrin binding peptide variant of five residues, which accounts for about 75% of the total free energy of interaction between the two proteins. Immunofluorescence imaging in HeLa cells demonstrated that HsCen2 binding to the integral XPC protein may be observed in living cells, and is determined by the same interface residues identified in the X-ray structure of the complex. Overexpression of XPC perturbs the cellular distribution of HsCen2, by inducing a translocation of centrin molecules from the cytoplasm to the nucleus. The present data confirm that the in vitro structural features of the centrin/XPC peptide complex are highly relevant to the cellular context.     

Splicing mutation of the prostacyclin synthase gene in a family associated with hypertension

Prostacyclin inhibits platelet aggregation, smooth muscle cell proliferation, and vasoconstriction. The prostacyclin synthase (PGIS) gene is a candidate gene for cardiovascular disease. The purpose of this study was to locate possible mutations in the PGIS gene related to hypertension and cerebral infarction. Using the polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) method, we discovered a T to C transition at the +2 position of the splicing donor site of intron 9 in patients with essential hypertension (EH). In vitro expression analysis of an allelic minigene consisting of exons 8-10 revealed that the nucleotide transition causes skipping of exon 9. This in turn alters the translational reading frame of exon 10 and introduces a premature stop codon (TGA). A three-dimensional model shows that the splice site mutation produces a truncated protein with a deletion in the heme-binding region. This splice site mutation was found in only one subject in 200 EH patients and 200 healthy controls. Analysis of the patient's family members revealed the mutation in two of the three siblings. The urinary excretion of prostacyclin metabolites in subjects with the mutation was significantly decreased. All subjects displaying the splice site mutation in the PGIS gene were hypertensive. In this study, we report a novel splicing mutation in the PGIS gene, which is associated with hypertension in a family. It is thought that this mechanism may involve in the pathophysiology of their hypertension.     

A complex microcephaly syndrome in a Pakistani family associated with a novel missense mutation in RBBP8 and a heterozygous deletion in NRXN1

We report on a consanguineous Pakistani family with a severe congenital microcephaly syndrome resembling the Seckel syndrome and Jawad syndrome. The affected individuals in this family were born to consanguineous parents of whom the mother presented with mild intellectual disability (ID), epilepsy and diabetes mellitus. The two living affected brothers presented with microcephaly, white matter disease of the brain, hyponychia, dysmorphic facial features with synophrys, epilepsy, diabetes mellitus and ID. Genotyping with a 250K SNP array in both affected brothers revealed an 18 MB homozygous region on chromosome 18p11.21-q12.1 encompassing the SCKL2 locus of the Seckel and Jawad syndromes. Sequencing of the RBBP8 gene, underlying the Seckel and Jawad syndromes, identified the novel mutation c.919A > G, p.Arg307Gly, segregating in a recessive manner in the family. In addition, in the two affected brothers and their mother we have also found a heterozygous 607 kb deletion, encompassing exons 13–19 of NRXN1. Bidirectional sequencing of the coding exons of NRXN1 did not reveal any other mutation on the other allele. It thus appears that the phenotype of the mildly affected mother can be explained by the NRXN1 deletion, whereas the more severe and complex microcephalic phenotype of the two affected brothers is due to the simultaneous deletion in NRXN1 and the homozygous missense mutation affecting RBBP8.     

Identification and functional characterization of a novel splicing mutation in RP gene PRPF31

A six-generation Chinese family with autosomal dominant retinitis pigmentosa (adRP) was identified and characterized. Genome-wide linkage analysis linked the family to markers D19S601 to D19S605, which span the PRPF31 gene on chromosome 19q13.33-13.43 (RP11) (LOD = 5.03). Direct DNA sequence analysis identified a novel splicing mutation (IVS1+1G>T) in affected family members and carriers, but not in unaffected family members and 200 normal controls. The splicing mutation occurs at the splicing donor of intron 1. Real time PCR with lymphoblastoid RNA samples from family members showed that in comparison to normal family members, the splicing mutation reduced the expression level of the PRPF31 mRNA by 57% in symptomatic patients and by 28% in clinically asymptomatic carriers. Our studies identify a novel splicing mutation in PRPF31 associated with adRP and suggest that the penetrance of RP11 mutations may be correlated with the expression level of the PRPF31 mRNA.     

Nucleotide and deduced amino acid sequence of the gene for a novel protein with a possible regulatory function encoded in the β operon of Staphylococcus aureus

Abstract Although considerable homology exists between the translation products of the rplL, rpoB and rpoC genes of the β operons of the Gram-negative organism Escherichia coli and the Gram-positive Staphylococcus aureus the region between the rplL and rpoB genes is quite different in the two bacterial species. In E. coli the 324 bp has three centres of dyad symmetry in the first half of the sequence and multiple nonsense codons in all three reading frames. By contrast, the corresponding region in S. aureus consists of 1000 bp capable of forming a similar arrangement of stem-loop structures but with an open reading frame, sited 177 bp downstream of the end of rplL and 217 bp upstream of the beginning of the rpoB gene, with consensus initiation and termination signals, which if translated would generate a 22,665 Da protein with 202 amino acids. In view of the inability to find any significant homology with other proteins in the data bank and because the evidence suggests, as in E. coli , that the rplL-rpoB intergenic sequence is involved in regulation it is proposed that the expression product of orf202 may be a further element of control in the S. aureus β operon.     

Functional characterization of the P1059L mutation in the inositol 1,4,5-trisphosphate receptor type 1 identified in a Japanese SCA15 family

Spinocerebellar ataxia type 15 (SCA15) is a group of human neurodegenerative disorders characterized by a slowly progressing pure cerebellar ataxia. The inositol 1,4,5-trisphosphate (IP₃) receptor type 1 (IP₃R1) is an intracellular IP₃-induced Ca²⁺ release channel that was recently identified as a causative gene for SCA15. In most case studies, a heterozygous deletion of the IP₃R1 gene was identified. However, one Japanese SCA15 family was found to have a Pro to Leu (P1059L) substitution in IP₃R1. To investigate the effect of the P1059L mutation, we analyzed the channel properties of the mutant human IP₃R1 by expressing it in an IP₃R-deficient B lymphocyte cell line. The P1059L mutant was a functional Ca²⁺ release channel with a twofold higher IP₃ binding affinity compared to wild-type IP₃R1. The cooperative dependence of the Ca²⁺ release activity of the mutant on IP₃ concentration was reduced, but both wild-type and mutant receptors produced similar B cell receptor-induced Ca²⁺ signals. These results demonstrate that the Ca²⁺ release properties of IP₃R1 are largely unaffected by the P1059L mutation.     

A novel mechanism of phenotypic heterogeneity demonstrated by the effect of a polymorphism on a pathogenic mutation in the PRNP (prion protein gene)

Fatal familial insomnia (FFI) is a subacute dementing illness originally described in 1986. The phenotypic characteristics of this disease include progressive untreatable insomnia, dysautonomia, endocrine and motor disorders, preferential hypometabolism in the thalamus as determined by PET scanning, and selective thalamic atrophy. These characteristics readily distinguish FFI from other previously described neurodegenerative conditions. Recently, FFI was shown to be linked to a mutation in the prion protein gene (PRNP) at codon 178, which results in the substitution of asparagine for aspartic acid. As such, FFI represents the most recent addition to the growing family of prion protein-related diseases. The mutation that results in FFI had previously been linked to a subtype of familial Creutzfeld-Jakob disease (178^Asn CJD). The genotypic basis for the difference between FFI and 178^AsnCJD lies in a polymorphism at codon 129 of the mutant prion protein gene: 129^Met 178^Asn results in FFI, 129^Val 178^Asn in CJD. The finding that the combination of a polymorphism and a single pathogenic mutation result in two distinct conditions represents a singnificant advance in our understanding of phenotypic variability.     

Identification of a novel mutation in POU3F4 for prenatal diagnosis in a Chinese family with X-linked nonsyndromic hearing loss

We present the clinical and genetic findings for a Chinese family with X-linked non-syndromic hearing loss in which the affected males showed congenital profound sensorineural hearing impairment. In two affected brothers, the computer tomography of temporal bone showed bilateral dilation of the internal auditory canal with fistulous communication between the lateral canal and the basal cochlear turn, which is consistent with the typical DFNX2 phenotype. A missense mutation (c.647G→A) in the POU3F4 gene caused a substitu- tion from glycine to glutamic acid at position 216 (p.G216E), and this mutation was found to consistently cosegregate with the deafness phenotype in the family. The mutation resulted in the loss of function of the POU3F4 by decreasing the affinity between the protein and DNA, as shown in silico by the structural analysis. Prenatal diagnosis of pregnant proband of this family revealed the c.647G→A muta- tion in DNA extracted from the amniotic fluid surrounding the fetus. The appropriate use of genetic testing and prenatal diagnosis plays a key role in reducing the recurrence of genetic defects in high-risk families.     

Identification of a novel RPGRIP1 mutation in an Iranian family with leber congenital amaurosis by exome sequencing

Leber congenital amaurosis (LCA) is a heterogeneous, early‐onset inherited retinal dystrophy, which is associated with severe visual impairment. We aimed to determine the disease‐causing variants in Iranian LCA and evaluate the clinical implications. Clinically, a possible LCA disease was found through diagnostic imaging, such as fundus photography, autofluorescence and optical coherence tomography. All affected patients showed typical eye symptoms associated with LCA including narrow arterioles, blindness, pigmentary changes and nystagmus. Target exome sequencing was performed to analyse the proband DNA. A homozygous novel c. 2889delT  (p.P963 fs) mutation in the RPGRIP1 gene was identified, which was likely the deleterious and pathogenic mutation in the proband. Structurally, this mutation lost a retinitis pigmentosa GTPase regulator (RPGR)‐interacting domain at the C‐terminus which most likely impaired stability in the RPGRIP1 with the distribution of polarised proteins in the cilium connecting process. Sanger sequencing showed complete co‐segregation  in this pedigree. This study provides compelling evidence that the c. 2889delT  (p.P963 fs) mutation in the RPGRIP1 gene works as a pathogenic mutation that contributes to the progression of LCA.