Recessively inherited multiple epiphyseal dysplasia with normal stature, club foot, and double layered patella caused by a DTDST mutation

We have observed over 25 different mutations in the diastrophic dysplasia sulphate transporter gene (DTDST) in association with the recessive disorders achondrogenesis 1B, atelosteogenesis 2, and diastrophic dysplasia. The c862t (R279W) transition is the most common mutation in non-Finnish patients, but in these disorders it is usually combined with other DTDST mutations. We had not seen a case of homozygosity for c862t (R279W) until we analysed DNA from a 36 year old male with tall-normal stature (180 cm) who asked for genetic counselling for suspected multiple epiphyseal dysplasia. He was treated for club foot and hip dysplasia at birth. Skeletal changes consistent with multiple epiphyseal dysplasia, with the peculiar finding of a double layered patella, were recognised during childhood. Cleft palate, swelling of the ear pinna, and hitch hiker thumb were absent. He was found to be homozygous, and both healthy parents heterozygous, for the R279W mutation in DTDST, and his fibroblasts showed a sulphate incorporation defect typical of DTDST disorders. Counselling was given for a recessive disorder, thereby considerably reducing the probability of affected offspring. Multiple epiphyseal dysplasia is more frequently caused by dominant mutations in the COMP (EDM1, McKusick 132400) and COL9A2 genes (EDM2, McKusick 600204). A few other patients and families with features similar to our proband have been described previously and considered to have autosomal recessive MED (EDM4, McKusick 226900). This observation confirms the existence of this entity and assigns it to the phenotypic spectrum associated with mutations at the DTDST locus.     

An inherited defect in aldosterone biosynthesis caused by a mutation in or near the gene for steroid 11-hydroxylase

The final step in aldosterone biosynthesis, an oxidation at position 18 of 18-hydroxycorticosterone, is catalyzed by an enzymatic activity termed corticosterone methyl oxidase II (CMO II). This activity is mediated in vitro by P450c11 (steroid 11-hydroxylase), a cytochrome P-450 enzyme that also catalyzes the preceding two steps of 11-hydroxylation and 18-hydroxylation. CMO II deficiency, an inherited defect in the 18-oxidation step, impairs aldosterone biosynthesis and thus leads to a clinical syndrome of salt wasting. To test the hypothesis that CMO II deficiency results from a mutation affecting the structural gene for P450c11, we examined 11 affected and 21 unaffected members of six families with this disorder. After DNA samples were digested with the restriction endonuclease MspI (thereby cutting the DNA at specific sites) and hybridized with a P450c11 DNA probe, a unique DNA fragment in the P450c11 structural gene was detected in subjects with the deficiency. The DNA fragment and the disease trait were inherited together in each family, demonstrating that CMO II deficiency is caused by a mutation in or very near the structural gene for P450c11 on chromosome 8. We conclude that the metabolic diseases of CMO II and 11-hydroxylase deficiency, which have distinct clinical symptoms, may be caused by different mutations in the single gene for a multifunctional enzyme.     

Maternally inherited hearing loss, ataxia and myoclonus associated with a novel point mutation in mitochondrial tRNA Ser(UCN) gene

We report on a new maternally-inherited syndrome characterizedby a combination of sensorineural hearing loss, ataxia and myoclonusin a large kindred from Sicily. Hearing loss was the most widespreadand sometimes the only symptom found in family members. Sequenceanalysis of the mitochondrial DNA regions encompassing the tRNAgenes revealed the presence of a heteroplasmic insertion atnucleotide position 7472. The insertion adds a seventh cytosineto a six-cytosine run that is part of the mitochondrial tRNA^Ser(UCN) gene. Conformational analysis showed that this mutationis likely to alter the structure of the T     

Giant axonal neuropathy caused by compound heterozygosity for a maternally inherited microdeletion and a paternal mutation within the GAN gene

Different missense, nonsense and frameshift mutations in the GAN gene encoding gigaxonin have been described to cause giant axonal neuropathy, a severe early-onset progressive neurological disease with autosomal recessive inheritance. By oligonucleotide array CGH analysis, we identified a 57-131?kb microdeletion affecting this gene in a patient with developmental delay, ataxia, areflexia, macrocephaly, and strikingly frizzy hair. The microdeletion was inherited from the mother and mutation analysis revealed a paternally inherited missense mutation c.1456G>A in exon 9 on the other allele. Our findings illustrate the power of higher resolution array CGH studies and highlight the importance of considering copy number variations in autosomal recessive diseases.     

Non-syndromic X-linked mental retardation associated with a missense mutation (P312L) in the FGD1 gene

Three brothers with non-syndromal X-linked mental retardation were found to have a novel missense mutation in FGD1, the gene associated with the Aarskog syndrome. Although the brothers have short stature and small feet, they lack distinct craniofacial, skeletal or genital findings suggestive of Aarskog syndrome. Their mother, the only obligate carrier available for testing, has the FGD1 mutation. The mutation, a C934T base change in exon 4, results in the proline at position 312 to be substituted with a leucine. This missense mutation is predicted to eliminate a beta-turn, creating an extra-long stretch of coiled sequence which may affect the orientations of an SH3 (Src homology 3) binding domain and the first structural conserved region. A new molecular defect associated with non-syndromal X-linked mental retardation affords an opportunity to seek specific diagnosis in males with previously unexplained developmental delays and this opens further predictive tests in families at risk.     

The neuronal nitric oxide synthase (nNOS) gene contributes to the regulation of tyrosine hydroxylase (TH) by cocaine

Recently, we demonstrated that intact nitric oxide (NO) signaling is essential for the development of cocaine behavioral sensitization in adulthood [M.A. Balda, K.L. Anderson, Y. Itzhak, Differential role of the nNOS gene in the development of behavioral sensitization to cocaine in adolescent and adult B6;129S mice, Psychopharmacology (Berl) 200 (2008) 509–519]. Given the requirement of dopamine (DA) transmission in cocaine-induced behavioral sensitization and the interactions between NO and DA systems, the present study investigated the role of the neuronal nitric oxide synthase (nNOS) gene and the effect of cocaine on the expression of tyrosine hydroxylase (TH)-immunoreactive (-ir) neurons. Adult (postnatal day 80) wild type (WT) and nNOS knockout (KO) mice received saline or a sensitizing regimen of cocaine (20 mg/kg) for 5 days. After 24 h, TH immunoreactivity was assessed in the ventral tegmental area (VTA) and the dorsal striatum (dST) using stereology and Western blotting, respectively. We report that (a) nNOS KO mice express lower levels of TH-ir neurons in the VTA compared to WT counterparts, (b) cocaine administration to WT mice significantly increased striatal TH expression, and (c) the same cocaine administration to nNOS KO mice significantly decreased striatal TH expression. Thus, the nitrergic system may contribute to cocaine-induced behavioral sensitization by regulating dopaminergic neurotransmission.     

Gypsy phenylketonuria: A point mutation of the phenylalanine hydroxylase gene in Gypsy families from Slovakia

A direct mutational analysis of the phenylala nine hydroxylase gene (PAH) in Gypsy families with phenylketonuria (PKU) has not yet been presented. However, they obviously represent a group at high risk for this inherited disease. We analyzed the PAH loci of 65 Gypsies originating from Eastern Slovakia by a combination of PCR amplification, direct sequencing and ASO hybridization. These studies uncovered 10 “classical PKU” patients to be homozygous for a R252W (CGG-TGG) transition, and 29 heterozygous carriers of this mutation. Fifteen control Caucasoid PKU patients from the Czech and Slovak Republics were selected. In this group we detected R252W mutation in two subjects (6.67% of all mutant alleles). Both were compound heterozygous for two different mutations. Previous haplotype studies of Welsh Gypsies with PKU were uniformative in the determination of heterozygosity. ASO hybridization served us effectively for the consequent analyses in Gypsy PKU-related families and to identify the carriers among the unrelated subjects. © 1994 Wiley-Liss, Inc.     

Substance P inhibits the acute stimulation of ganglionic tyrosine hydroxylase activity by a nicotinic agonist

Incubation of rat superior cervical ganglia with dimethylphenylpiperazinium (30 microM) for 30 min resulted in a two-fold increase in tyrosine hydroxylase activity. This effect was completely inhibited by substance P (30 microM) but not by substance P-free acid, kassinin or physalaemin. Neither of these four peptides alone produced any change in the activity of tyrosine hydroxylase. The IC50 for the inhibitory effect of substance P was approximately 3 microM. Substance P did not inhibit the stimulatory effects of bethanechol or vasoactive intestinal peptide on this enzyme activity. Thus substance P, acting at a site which has a different pharmacology than previously characterized substance P receptors, selectively inhibits nicotinic stimulation of tyrosine hydroxylase activity. These data raise the possibility that substance P may modulate the nicotinic regulation of catecholamine synthesis in sympathetic ganglia in vivo.     

A novel point mutation in the mitochondrial tRNA(Trp) gene produces a neurogastrointestinal syndrome

We report a novel, heteroplasmic point mutation in the mitochondrial tRNA for tryptophan at position 5532. The mutation was present in all the tissues studied and segregated with the biochemical defect, with higher levels of mutation present in cytochrome c oxidase-deficient muscle fibres. The patient manifested a neurogastrointestinal syndrome with features including failure to thrive, psychomotor retardation, ophthalmoplegia, sensorineural deafness and encephalopathy together with vomiting, diarrhoea and colitis.     

A new mtDNA mutation in the tRNALeu(UUR) gene associated with maternally inherited cardiomyopathy

We report a new mutation, a C to T transition at nt 3303 of mtDNA, in seven members of a family with cardiomyopathy and myopathy: the proband and two siblings had fatal infantile cardiomyopathy, whereas in three maternal relatives the disease manifested later in life as sudden cardiac death or as mitochondrial myopathy with cardiomyopathy. The mutation was homoplasmic in all tissues (including blood) from the proband and her brother, but heteroplasmic in blood from five oligosymptomatic or asymptomatic maternal relatives. This mutation disrupts a conserved base pair in the aminoacyl stem of the tRNA^Leu(UUR). None of 70 controls carried the mutation. Our data indicate that this mutation is the genetic cause of the disorder in this family, and confirm that the tRNA^Leu(UUR) is a “hot spot” for mutations in mtDNA. © 1994 Wiley-Liss, Inc.     

Aldosterone synthase deficiency caused by a homozygous L451F mutation in the CYP11B2 gene

Isolated hypoaldosteronism is a rare cause of salt wasting in infancy and may be life-threatening, especially in the newborn infant. In a 3 wk-old-boy with hyponatremia and hyperkalemia a GC–MS steroid profile on a spot urinary sample showed no 18-oxygenated steroid metabolites indicative for aldosterone synthase deficiency type I. Sequence analysis of the CYP11B2 gene revealed that the patient was homozygous for a novel missense mutation (L451F) caused by a T to C transition at position c.1351 in exon 8, whereas each non-symptomatic parent possessed only one mutated allele. The mutant cDNA was transiently expressed in a human cell line, HCT116 p53^−/−, and activity of the expressed protein optimized by co-expression of different adrenodoxin species, showing complete aldosterone deficiency with 11-deoxycorticosterone or corticosterone as substrates. The L451F mutation is the first mutation found located immediately adjacent to the highly conserved heme-binding C450 of the cytochrome P450. Computer modeling shows that replacement of leucine by phenylalanine leads to a steric effect in the immediate vicinity of the heme thereby preventing the activity of CYP11B2. Thus, by combining highly sensitive hormone detection in a spot urine sample with expression of the mutated cDNA in cell culture the phenotype of the patient can be correlated with a particular molecular defect.     

ABCD syndrome is caused by a homozygous mutation in the EDNRB gene

ABCD syndrome is an autosomal recessive syndrome characterized by albinism, black lock, cell migration disorder of the neurocytes of the gut (Hirschsprung disease [HSCR]), and deafness. This phenotype clearly overlaps with the features of the Shah-Waardenburg syndrome, comprising sensorineural deafness; hypopigmentation of skin, hair, and irides; and HSCR. Therefore, we screened DNA of the index patient of the ABCD syndrome family for mutations in the endothelin B receptor (EDNRB) gene, a gene known to be involved in Shah-Waardenburg syndrome. A homozygous nonsense mutation in exon 3 (R201X) of the EDNRB gene was found. We therefore suggest that ABCD syndrome is not a separate entity, but an expression of Shah-Waardenburg syndrome.     

Left-sided CHILD syndrome caused by a nonsense mutation in the NSDHL gene

Congenital hemidysplasia with ichthyosiform nevus and limb defects (CHILD) syndrome is a rare X-linked dominant malformation syndrome characterized by unilaterally distributed ichthyosiform nevi, often sharply delimited at the midline, and ipsilateral limb defects. At least two-thirds of cases demonstrate involvement of the right side. Mutations in an essential enzyme of cholesterol biosynthesis, NAD(P)H steroid dehydrogenase-like [NSDHL], have been reported in five unrelated patients with right-sided CHILD syndrome and in a sixth patient with bilaterally, symmetric nevi and mild skeletal anomalies, but not with CHILD syndrome as originally defined. Although all of the molecularly diagnosed cases with the CHILD phenotype to date have had right-sided disease, we report here a novel nonsense mutation (E151X) of NSDHL in an infant with left-sided CHILD syndrome. This result demonstrates that both right- and left-sided CHILD syndrome can be caused by mutations in the same gene.     

Familial infiltrative fibromatosis (desmoid tumours) (MIM135290) caused by a recurrent 3' APC gene mutation

Desmoid tumours are generally very rare but occur about 100 times more frequently in the colorectal cancer predisposition syndrome familial adenomatous polyposis (MIM 175100), being represented in about 10% of patients. In addition to desmoid disease occurring in familial adenomatous polyposis (FAP) there exist familial infiltrative fibromatosis (MIM 135290) kindreds where there is no evidence of FAP. Previously we have described a kindred with familial infiltrative fibromatosis (FIF) in which desmoid tumours were associated with nonpolyposis colorectal cancer. FAP is caused by mutations in the APC gene and various genotype-phenotype relationships have been defined including reports that colorectal polyposis is less severe with mutations 5' to codon 157 and that the risk of desmoid tumours is high in FAP patients with APC gene mutations between codons 1444 and 1598. There is relatively little information on the phenotype of APC gene mutations 3' to codon 1598; however, one large family has been reported with a mutation at codon 1987 which presents with a highly variable phenotype which includes desmoid disease. We screened our original FIF kindred and three further families with a similar phenotype for mutations in the APC gene. A 4 bp frameshift deletion in codon 1962 was identified in the original FIF kindred and two further apparently unrelated families. Haplotype analysis suggests a common origin for the APC mutation in all three families. Affected individuals had no evidence of congenital hypertrophy of the retinal pigment epithelium. Colorectal polyposis was variable, and most affected patients had either none or a few late onset polyps. These findings demonstrate (i) that FAP and FIF are allelic, and (ii) that APC gene mutations which truncate the APC protein distal to the beta-catenin binding domain are associated with desmoid tumours, absent CHRPE and variable but attenuated polyposis expression.      

Pelizaeus-Merzbacher disease: a point mutation in exon 6 of the proteolipid protein (PLP) gene

Pelizaeus-Merzbacher disease has been known since 1885. It is characterized by severe dysmyelination of the central nervous system. We describe a new mutation in exon 6 of the proteolipid protein gene in a 9-year-old boy with severe connatal Pelizaeus-Merzbacher disease.     

Bone marrow failure syndrome caused by homozygous frameshift mutation in the ERCC6L2 gene

Inherited bone marrow failure syndromes (IBMFS) are group of disorders that lead to inadequate production of blood cells. Mutations in genes involved in telomere maintenance, DNA repair, and the cell cycle cause IBMFS. ERCC6L2 gene mutations have been associated with bone marrow failure that includes developmental delay and microcephaly. We report 2 cases of bone marrow failure with no extra‐hematopoietic manifestations in patients from unrelated families with a homozygous truncating mutation in ERCC6L2. Bone marrow failure without developmental delay or microcephaly with ERCC6L2 mutation has not been previously described.