A new missense mutation of the vasopressin-neurophysin II gene in a family with neurohypophyseal diabetes insipidus

OBJECTIVE: Autosomal dominant familial neurohypophyseal diabetes insipidus is a rare disorder characterized by polydipsia and polyuria. We present the results of the molecular analysis of the AVP-NPII gene of a German kindred. METHODS: All three exons of the gene were amplified by polymerase chain reaction and sequenced. RESULTS: In 7 affected individuals a new missense mutation (1770G > T) in exon 2 was found predicting a cysteine to phenylalanine substitution at codon 58 in the neurophysin II domain (NPII). CONCLUSION: As a result of this mutation a cysteine residue is exchanged, which is involved in a disulfide bond with cysteine 44 of the NPII moiety, hypothesizing that the resulting misfolded protein may lead to chronic neurotoxicity by accumulation of these products in the endoplasmatic reticulum.     

FLJ14813 missense mutation: a candidate for autosomal dominant thrombocytopenia on human chromosome 10

The gene for a novel nonsyndromic autosomal dominant thrombocytopenia has been previously mapped to a region on human chromosome 10p11-12 (THC2, OMIM number *188000). This disorder is characterized by moderate thrombocytopenia and incomplete differentiation of megakaryocytes. We report here a novel missense mutation in the human gene FLJ14813 that segregates perfectly with thrombocytopenia in our kindred of 51 family members. The mutation is not detected in 94 random unrelated and unaffected individuals, nor is it reported in the Entrez single nucleotide polymorphism (SNP) database. A substitution of cytosine for guanidine (G to C) at nucleotide position 565 was present in all thrombocytopenic family members, causing a predicted substitution of aspartic acid for glutamic acid (E167D) in exon four.     

A missense mutation in the vasopressin-neurophysin precursor gene cosegregates with human autosomal dominant neurohypophyseal diabetes insipidus.

Familial neurohypophyseal diabetes insipidus in humans is a rare disease transmitted as an autosomal dominant trait. Affected individuals have very low or undetectable levels of circulating vasopressin and suffer from polydipsia and polyuria. An obvious candidate gene for the disease is the vasopressin-neurophysin (AVP-NP) precursor gene on human chromosome 20. The 2 kb gene with three exons encodes a composite precursor protein consisting of the neuropeptide vasopressin and two associated proteins, neurophysin and a glycopeptide. Cloning and nucleotide sequence analysis of both alleles of the AVP-NP gene present in a Dutch ADNDI family reveals a point mutation in one allele of the affected family members. Comparison of the nucleotide sequences shows a G----T transversion within the neurophysin-encoding exon B. This missense mutation converts a highly conserved glycine (Gly17 of neurophysin) to a valine residue. RFLP analysis of six related family members indicates cosegregation of the mutant allele with the DI phenotype. The mutation is not present in 96 chromosomes of an unrelated control group. These data suggest that a single amino acid exchange within a highly conserved domain of the human vasopressin-associated neurophysin is the primary cause of one form of ADNDI.     

X-linked recessive combined pituitary hormone deficiency is mapped to Xp22.3-Xp11 in a Chinese family

Genetic mutations have been identified in a modest proportion of patients with combined pituitary hormone deficiency (CPHD). We reported a 3-generation family consisting of 18 members, including 5 affected males (the proband, his 2 brothers, his cousin, and his maternal uncle; III1–III4, II8) suffered with CPHD. MRI of the pituitary gland showed hypoplasia of the pituitary gland in affected members. By 19 STR markers and linkage analysis, we found that the disease gene localized between the DXS987 and DXS1226 markers (LOD score = 2.408, θ = 0). All affected male patients inherited the same haplotype from the female carrier (I4). The proband's mother (II4) and her sister (II3, II6) were obligate female carriers. However, the unaffected males (II₇, II₉) in the family did not have this haplotype. These observations confirm a new X-linked recessive inherited disease in a Chinese family with CPHD and the pathogenic gene is mapped to Xp22.1–Xp11.     

Retrospective molecular detection of transhyretin Met 111 mutation in a Danish kindred with familial amyloid cardiomyopathy,using DNA from formalin-fixed and paraffin-embedded tissues

Severe familial amyloid cardiomyopathy (FAC) in a Danish kindred is associated with a specific mutation (Met for Leu 111) in the transthyretin (TTR) gene. The mutation causes the loss of a DdeI restriction site in the gene, allowing molecular diagnostic studies. We studied formalin-fixed, paraffin-embedded tissues, up to 39 years old, from 29 family members of this kindred. DNA was partially purified from deparaffinized tissue sections and a DNA sequence of the TTR gene flanking the mutation site was amplified by the polymerase chain reaction (PCR), followed by restriction enzyme analysis. Amplified DNA was obtained from tissues representing 23 of the 29 persons. Ten out of the 23 family members were found to carry the TTR Met 111 mutation, whereas 13 were not affected. The results were consistent with known clinical data and with corresponding serum TTR examinations. This retrospective study shows that archival tissues can be used to confirm the diagnosis and disease pattern in members of families affected by hereditary diseases.     

A new mutation of the ALAS2 gene in a large family with X-linked sideroblastic anemia

X-linked sideroblastic anemia is a genetic disorder characterized by a hypochromic microcytic anemia of variable intensity with the presence of ring sideroblasts in the bone marrow of the patients. Two different mutations have been reported in the ALAS2 gene in patients with this diseae. We have studied a large kindred with a pyridoxine-sensitive form of X-linked sideroblastic anemia. Sequencing amplified cDNA of the proband revealed a guanine-to-adenine change at nucleotide 871 of the coding sequence (exon 7 of the gene). This results in a glycine to serine substitution that is responsible for a marked decrease in the enzymatic activity of the mutated protein. A polymerase chain reaction assay demonstrated the presence of the same mutation in three affected males and two female carriers in the kindred. The carrier status was excluded in eight females at risk. Early detection of the mutant allele in family members may thus be important for the prevention of anemia in males and of iron overload both in affected males and carrier females.     

The 21.5-kDa isoform of myelin basic protein has a non-traditional PY-nuclear-localization signal

A large four-generation Chinese family with autosomal dominant optic atrophy (ADOA) was investigated in the present study. Eight of the family members were affected in this pedigree. The affected family members exhibited early-onset and progressive visual impairment, resulting in mild to profound loss of visual acuity. The average age-at-onset was 15.9years. A new heterozygous mutation c.C1198G was identified by sequence analysis of the 12th exon of the OPA1 gene. This mutation resulted in a proline to alanine substitution at codon 400, which was located in an evolutionarily conserved region. This missense mutation in the GTPase domain was supposed to result in a loss of function for the encoded protein and act through a dominant negative effect. No other mutations associated with optic atrophy were found in our present study. The c.C1198G heterozygous mutation in the OPA1 gene may be a novel key pathogenic mutation in this pedigree with ADOA. Furthermore, additional nuclear modifier genes, environmental factors, and psychological factors may also contribute to the phenotypic variability of ADOA in this pedigree.     

Multiple endocrine neoplasia type 1 (MEN1) in two Asian families

Multiple endocrine neoplasia type 1 (MEN1), an autosomal dominant disease characterized by neoplasia of the parathyroid glands, anterior pituitary and endocrine pancreas, is rarely reported in Asian populations. The MEN1 gene, mapped to chromosome 11q13 but yet to be cloned, has been found to be homogeneous in Caucasian populations through linkage analysis. Here, two previously unreported Asian kindreds with MEN1 are described; link-age analysis using microsatellite polymorphic markers in the MEN1 region was carried out. The first kindred, of Mongolian-Chinese origin, is a multigeneration family with over 150 living members, eight of whom are affected toB. T. Teh and S. I. Hii are to be considered as joint first authors     

Detection of a novel nonsense mutation and an intragenic polymorphism in the PKD1 gene of a Cypriot family with autosomal dominant polycystic kidney disease

Mutations in the PKD1 gene on the short arm of chromosome 16 account for 85%–90% of polycystic kidney disease patients in the Caucasian population. After the recent characterization of the gene, we started a search for mutations in its 3′-end unique portion in Cypriot patients, by using the method of single-strand conformation polymorphism (SSCP). In one large family, we identified a nucleotide substitution at position 12 258 of the cDNA; this substitutes cysteine-4086 by a premature termination codon (C4086X). It has been inherited by every affected family member but not by unaffected members, nor by patients from 13 other Cypriot families. A new polymerase chain reaction (PCR) primer has been designed to engineer a novel DdeI recognition site upon PCR amplification, thereby allowing easy detection of the mutation by PCR-restriction digestion. The premature STOP codon is expected to remove 217 residues from the putative C-terminal intracellular domain of the gene product, polycystin and thus identifies this part as being critical to the production of the disease phenotype, possibly by interfering with the transmission of signals from the extracellular matrix to the cytoplasm. We also describe the identification of the first polymorphism within the encoding region of the gene. It is at alanine 4091, which is encoded by either GCA or GCG. With a heterozygosity of 35%, it should be extremely useful in informative families, especially because the gene lies in an unstable region and is prone to rearrangements. This polymorphism is readily detectable by PCR-restriction digestion with Bsp1286I. Received: 19 February 1996 / Revised: 20 April 1996     

Mutational Analysis of Patients with Neurofibromatosis 2

Neurofibromatosis 2 (NF2) is a genetic disorder characterized by the development of multiple nervous-system tumors in young adulthood. The NF2 gene has recently been isolated and found to encode a new member of the protein 4.1 family of cytoskeletal associated proteins, which we have named merlin. To define the molecular basis of NF2 in affected individuals, we have used SSCP analysis to scan the exons of the NF2 gene from 33 unrelated patients with NF2. Twenty unique SSCP variants were seen in 21 patients; 10 of these individuals were known to be the only affected person in their kindred, while 7 had at least one other known affected relative. In all cases in which family members were available, the SSCP variant segregated with the disease; comparison of sporadic cases with their parents confirmed the de novo variants. DNA sequence analysis revealed that 19 of the 20 variants observed are predicted to lead to a truncated protein due to frameshift, creation of a stop codon, or interference with normal RNA splicing. A single patient carried a 3-bp deletion removing a phenylalanine residue. We conclude that the majority of NF2 patients carry an inactivating mutation of the NF2 gene and that neutral polymorphism in the gene is rare.     

Distribution of introns in frameshift-suppressor proline-tRNA genes of Saccharomyces cerevisiae

Mutations in the suf9, suf10, and suf11 genes of yeast suppress + 1 nucleotide (nt) insertions in proline codons. Nucleotide sequence analysis indicates that the suf9 and suf11 genes are members of the proline tRNA(UGG) gene family, which also includes three other previously identified genes, suf7, suf8, and trn1. All five members of this gene family contain introns. The suf9 and suf11 introns are 31 and 30 nt in length, respectively, and are similar but not identical in sequence to other introns within the family. The suf10 gene is identical in sequence to suf2, which was shown previously to encode proline tRNA(IGG). Both members of this gene family lack introns. Alleles of suf9, suf10, and suf11 that confer frameshift suppression were also analyzed. The SUF9-1 allele results in a G----U substitution at nt position 39 in the anticodon stem. The recessive suf11-1 allele is a double mutant containing the same nt position 39 alteration as in SUF9-1 plus a second U----A substitution at nt position 38 in the anticodon loop. The SUF10-1 suppressor mutation corresponds to a +1G insertion in the anticodon loop. Since the nt substitutions in suf11-1 alter the sequence of the 3' exon/intron boundary, the double mutant pre-tRNA was tested for its ability to be cleaved in vitro by tRNA-splicing endonuclease. It was found that suf11-1 pre-tRNA is cleaved with reduced efficiency at the 3' splice junction.     

Mutations of the tyrosinase gene in patients with oculocutaneous albinism from various ethnic groups in Israel.

We have analyzed the tyrosinase (TYR) gene in 38 unrelated patients with oculocutaneous albinism (OCA), derived from several different ethnic groups of the diverse population of Israel. We detected TYR gene mutations in 23 of the 34 patients with apparent type I (i.e., tyrosinase-deficient) OCA and in none of the patients with other clinical forms of albinism. Among Moroccan Jews with type IA (i.e., tyrosinase-negative) OCA, we detected a highly predominant mutant allele containing a missense substitution, Gly47Asp (G47D). This mutation occurs on the same haplotype as in patients from the Canary Islands and Puerto Rico, suggesting that the G47D mutation in these ethnically distinct populations may stem from a common origin.     

Antithrombin III Utah: proline-407 to leucine mutation in a highly conserved region near the inhibitor reactive site

A dysfunctional antithrombin III (ATIII) gene encoding a qualitatively and quantitatively abnormal anticoagulant molecule is responsible for hereditary thrombosis in a Utah kindred [Bock et al. (1985) Am. J. Hum. Genet. 37, 32-41]. Nucleotide sequencing of the entire protein-encoding portion of the cloned ATIII-Utah gene revealed a C to T transitional mutation which converts proline-407 to leucine. Proline-407 is located 14 amino acids C-terminal to the reactive site arginine of ATIII in a core region of the molecule that has been highly conserved during evolution of the serine protease inhibitor (serpin) gene family. The location of this proline in the crystal structure of the homologous serpin alpha 1-antitrypsin suggests that the leucine substitution in ATIII-Utah may interfere with correct folding of the mutant gene product, leading to its rapid turnover and the low antithrombin levels observed in patient plasmas. The Pro-407 to Leu mutation does not interfere with binding of antithrombin III to heparin. Patient antithrombin III, isolated by affinity chromatography on heparin-Sepharose, was reacted with purified thrombin. ATIII encoded by the patient's normal gene formed protease-inhibitor complexes with thrombin, whereas the product of the ATIII-Utah gene did not. The Pro-407 to Leu mutation destroys a restriction site for the enzyme StuI, permitting rapid diagnosis of affected members of the Utah kindred by Southern blotting of genomic DNA.     

Rapid Communication: Cu/Zn Superoxide Dismutase Activity in Familial and Sporadic Amyotrophic Lateral Sclerosis

Abstract: Amyotrophic lateral sclerosis (ALS) is a degenerative motor neuron disease that is inherited as an autosomal dominant trait in ~ 10% of cases. Recently we and others identified several single-base mutations in the Cu/Zn superoxide dismutase (SOD1) gene in patients with familial ALS (FALS). Using single-strand conformational polymorphism, we studied the C to G mutation in exon 2 of the SOD1 gene (resulting in a leucine to valine substitution in position 38) in affected and unaffected members of a large Belgian family with FALS. We measured the SOD1 activity in red blood cell lysates in 14 members of this family, including the only surviving clinically affected patient. SOD1 activity of the family members carrying the mutation was less than half that of members without the mutation. In addition, in 11 patients with sporadic ALS and 11 age- and sex-matched controls, red blood cell SOD1 activity was normal. These studies indicate that SOD1 activity is reduced in these FALS patients but not in sporadic ALS patients. Moreover, this SOD1 enzyme abnormality is detectable years before onset of clinical ALS in carriers of this FALS mutation.     

Segregation and linkage analyses of von Hippel Lindau disease among 220 descendants from one kindred.

Von Hippel Lindau disease (vHL), an autosomal dominant precancerous condition, had segregated in a large kindred. Fourteen relatives were known to have been affected; record reviews disclosed features of vHL in 15 previously undiagnosed relatives; presymptomatic evaluations detected vHL in 13 additional members of this kindred. Altogether, among 220 descendants of an ancestral couple, 41 had vHL. We screened for HLA haplotypes and for polymorphic gene markers at 31 loci in 102 direct descendants and 16 spouses from this kindred, including 23 with vHL. Linkage analyses failed to reveal a significant lod score with any locus tested, or any HLA linkage disequilibrium. Expression of vHL among the affected relatives was compared with 384 other reported cases of vHL. The age of onset, tissue involvement, and life expectancy in this family were similar to the other reported cases. The sigmoid age-of-onset distribution for vHL most closely matched a square-foot transformation (mean = 26.2(-2) years; variance = 1.224).     

Tyrosinase and tyrosinase related protein 1 alleles specify domestic cat coat color phenotypes of the albino and brown loci

The genes encoding enzymes of the tyrosinase family are strong candidates for coat color variation in mammals. To investigate their influence in domestic cat coat color, we determined the complete nucleotide coding sequence of the domestic cat genes tyrosinase (TYR)--a plausible candidate gene for the albino (C) locus, and tyrosinase related protein 1 (TYRP1)--a candidate gene for the brown (B) locus. Sequence variants between individuals exhibiting variation in pigmentation were submitted to association studies. In TYR, two nonsynonymous substitutions encoding TYR-G301R and TYR-G227W were associated with the siamese and burmese phenotypes of the albino locus, respectively. TYRP1 was mapped on chromosome D4 within 5 cM of a highly polymorphic microsatellite, previously found to be fixed in a cat breed selected for the chocolate (b) allele of the B locus, which reinforced TYRP1 as a candidate gene for the B locus in the domestic cat. Two DNA polymorphisms, one leading to a TYRP1-A3G substitution in the signal peptide and another to an in-frame insertion TYRP1-421ins17/18 caused by a donor splice site mutation in intron 6, were associated with the chocolate (b) allele. A premature UAG stop codon at position 100 of TYRP1 was associated with a second allele of the B locus, cinnamon (b(l)). The results provide very strong evidence that the specific nucleotide variants of feline TYR (chromosome D1) are causative of the siamese (c(s)) and burmese (c(b)) alleles of the albino locus, as well as nucleotide variants of TYRP1 (chromosome D4) as specifying the chocolate (b) and cinnamon (b(l)) alleles of the B locus.     

A molecular basis for familial hypertrophic cardiomyopathy: an alpha/beta cardiac myosin heavy chain hybrid gene

An alpha/beta cardiac myosin heavy chain (MHC) hybrid gene is coinherited with familial hypertrophic cardiomyopathy (FHC) in one kindred. FHC is a disease of the heart muscle characterized by a thickening of the left ventricular wall with myocyte and myofibrillar disarray that is inherited as an autosomal dominant trait. We demonstrate here and in the accompanying article that the cardiac MHC genes, which encode integral myofibrillar components, are mutated in all affected individuals from two unrelated families with FHC. In one kindred, an unequal crossover event during meiosis may have produced the alpha/beta cardiac MHC hybrid gene that is present in affected individuals. We conclude that mutations in the cardiac MHC genes can cause FHC.     

A novel missense mutation of the CBFA1 gene in a family with cleidocranial dysplasia (CCD) and variable expressivity

The aim of this study was to analyze the CBFA1 gene in a phenotypically variable family with autosomal dominant cleidocranial dysplasia (CCD). Five members of a family with CCD were characterized clinically. X-rays and photographs of the two clinically affected family members were taken. The genotype of all five affected family members was determined with the use of single strand conformation polymorphism (SSCP) and direct sequencing. A point-mutation in exon 2 (R148G) was detected in a patient with the full-blown clinical phenotype. His son, demonstrating the same mutation, showed only the dental CCD characteristics. No mutation could be found in the three clinically healthy family members. To conclude, a missense mutation in the CBFA1 gene was detected in a family with variably expressed CCD syndrome. A detailed clinical examination is necessary to detect minimally affected gene mutation carriers.     

A mutation in apolipoprotein A-I in the Iowa type of familial amyloidotic polyneuropathy

Immunoblotting of isoelectric focusing gels of plasma and direct genomic DNA sequencing have been used to characterize a mutation in apolipoprotein A-I associated with the familial amyloidotic polyneuropathy originally described by Van Allen in an Iowa kindred. An arginine for glycine substitution in apolipoprotein A-I identified in the proband's amyloid fibrils was determined to be the result of a mutation of guanine to cytosine in the apolipoprotein A-I gene at the position corresponding to the first base of codon 26. Direct sequencing of genomic DNA of three affected individuals who died in the 1960s confirmed the inheritance of the disorder. Immunoblot analysis detected the variant apolipoprotein A-I in the proband's plasma and in several at-risk members of the kindred. In addition, allele-specific amplification by the polymerase chain reaction was used to detect carriers of the variant gene.