Maurine R. Hobbs scite author profile

We report here the identification of a gene associated with the hyperparathyroidism-jaw tumor (HPT-JT) syndrome. A single locus associated with HPT-JT (HRPT2) was previously mapped to chromosomal region 1q25-q32. We refined this region to a critical interval of 12 cM by genotyping in 26 affected kindreds. Using a positional candidate approach, we identified thirteen different heterozygous, germline, inactivating mutations in a single gene in fourteen families with HPT-JT. The proposed role of HRPT2 as a tumor suppressor was supported by mutation screening in 48 parathyroid adenomas with cystic features, which identified three somatic inactivating mutations, all located in exon 1. None of these mutations were detected in normal controls, and all were predicted to cause deficient or impaired protein function. HRPT2 is a ubiquitously expressed, evolutionarily conserved gene encoding a predicted protein of 531 amino acids, for which we propose the name parafibromin. Our findings suggest that HRPT2 is a tumor-suppressor gene, the inactivation of which is directly involved in predisposition to HPT-JT and in development of some sporadic parathyroid tumors.

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Mutations Affecting G-Protein Subunit α₁₁in Hypercalcemia and Hypocalcemia

Nesbit

et al. 2013

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BACKGROUND Familial hypocalciuric hypercalcemia is a genetically heterogeneous disorder with three variants: types 1, 2, and 3. Type 1 is due to loss-of-function mutations of the calcium-sensing receptor, a guanine nucleotide–binding protein (G-protein)–coupled receptor that signals through the G-protein subunit α11 (Gα11). Type 3 is associated with adaptor-related protein complex 2, sigma 1 subunit (AP2S1) mutations, which result in altered calcium-sensing receptor endocytosis. We hypothesized that type 2 is due to mutations effecting Gα11 loss of function, since Gα11 is involved in calcium-sensing receptor signaling, and its gene (GNA11) and the type 2 locus are colocalized on chromosome 19p13.3. We also postulated that mutations effecting Gα11 gain of function, like the mutations effecting calcium-sensing receptor gain of function that cause autosomal dominant hypocalcemia type 1, may lead to hypocalcemia. METHODS We performed GNA11 mutational analysis in a kindred with familial hypocalciuric hypercalcemia type 2 and in nine unrelated patients with familial hypocalciuric hypercalcemia who did not have mutations in the gene encoding the calcium-sensing receptor (CASR) or AP2S1. We also performed this analysis in eight unrelated patients with hypocalcemia who did not have CASR mutations. In addition, we studied the effects of GNA11 mutations on Gα11 protein structure and calcium-sensing receptor signaling in human embryonic kidney 293 (HEK293) cells. RESULTS The kindred with familial hypocalciuric hypercalcemia type 2 had an in-frame deletion of a conserved Gα11 isoleucine (Ile200del), and one of the nine unrelated patients with familial hypocalciuric hypercalcemia had a missense GNA11 mutation (Leu135Gln). Missense GNA11 mutations (Arg181Gln and Phe341Leu) were detected in two unrelated patients with hypocalcemia; they were therefore identified as having autosomal dominant hypocalcemia type 2. All four GNA11 mutations predicted disrupted protein structures, and assessment on the basis of in vitro expression showed that familial hypocalciuric hypercalcemia type 2–associated mutations decreased the sensitivity of cells expressing calcium-sensing receptors to changes in extracellular calcium concentrations, whereas autosomal dominant hypocalcemia type 2–associated mutations increased cell sensitivity. CONCLUSIONS Gα11 mutants with loss of function cause familial hypocalciuric hypercalcemia type 2, and Gα11 mutants with gain of function cause a clinical disorder designated as autosomal dominant hypocalcemia type 2. (Funded by the United Kingdom Medical Research Council and others.)

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A new NOS2 promoter polymorphism associated with increased nitric oxide production and protection from severe malaria in Tanzanian and Kenyan children

et al. 2002

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Uterine tumours are a phenotypic manifestation of the hyperparathyroidism‐jaw tumour syndrome

Bradley

Hobbs

Buley

et al. 2004

Journal of Internal Medicine

146

149

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The hyperparathyroidism-jaw tumour (HPT-JT) syndrome is an autosomal dominant disorder characterized by parathyroid tumours, which are frequently carcinomas, and ossifying jaw fibromas. In addition, some patients may develop renal tumours and cysts. The gene causing HPT-JT, which is referred to as HRPT2 and is located on chromosome 1q31.2, encodes a 531 amino acid protein called PARAFIBROMIN. To date 42 mutations, of which 22 are germline, have been reported and 97% of these are inactivating and consistent with a tumour suppressor role for HRPT2. We have investigated another four HPT-JT families for germline mutations, searched for additional clinical phenotypes, and examined for a genotype-phenotype correlation. Mutations were found in two families. One family had a novel deletional-insertion at codon 669, and the other had a 2 bp insertion at codon 679, which has been reported in four other unrelated patients. These five unrelated patients and their families with the same mutation were not found to develop the same tumours, thereby indicating an absence of a genotype-phenotype correlation. An analysis of 33 HPT-JT kindreds revealed that affected women in 13 HPT-JT families suffered from menorrhagia in their second to fourth decades. This often required hysterectomy, which revealed the presence of uterine tumours. This resulted in a significantly reduced maternal transmission of the disease. Thus, the results of our analysis expand the spectrum of HPT-JT-associated tumours to include uterine tumours, and these may account for the decreased reproductive fitness in females from HPT-JT families.

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Low plasma arginine concentrations in children with cerebral malaria and decreased nitric oxide production

et al. 2003

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A promoter polymorphism in the gene encoding interleukin-12 p40 (IL12B) is associated with mortality from cerebral malaria and with reduced nitric oxide production

et al. 2002

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Interleukin-12 (IL-12) is an important regulatory cytokine in infection and immunity. Administration of IL-12 may reduce complications of severe malaria in rodents. Polymorphisms in IL12B, the gene encoding the IL-12 p40 subunit, influence the secretion of IL-12 and susceptibility to Type 1 diabetes. We therefore investigated whether IL12B polymorphisms may affect the outcome of severe malaria. Homozygosity for a polymorphism in the IL12B promoter was associated with increased mortality in Tanzanian children having cerebral malaria but not in Kenyan children with severe malaria. Furthermore, homozygotes for the IL12B promotor polymorphism had decreased production of nitric oxide, which is in part regulated by IL-12 activity. These studies suggest that IL12B polymorphisms, via regulation of IL-12 production, may influence the outcome of malaria infection in at least one African population.

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Nitric Oxide Synthase Type 2 Promoter Polymorphisms, Nitric Oxide Production, and Disease Severity in Tanzanian Children with Malaria

et al. 1999

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Nitric oxide (NO) plays an important role in host resistance to infection with a variety of organisms. Two recent reports from Gabon and Gambia identified associations of malaria disease severity with the inducible NO synthase (NOS2) promoter G-954C and short allele (<11 repeats) pentanucleotide microsatellite polymorphisms, respectively. It was postulated that there would be a correlation of these polymorphisms with malaria disease severity and with measures of NO production in our cohort of Tanzanian children with malaria. In Tanzanian children, 15% were heterozygous or homozygous for the G-954C polymorphism, and 13% had the short-allele microsatellite polymorphism. There was no significant correlation of either polymorphism with disease severity or with measures of NO production and NOS2 expression. Black and white Americans differed significantly in the frequencies of these polymorphisms. The various association of these gene polymorphisms with malaria severity in different populations underscores the complexity of host resistance to malaria.

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Elevated Plasma Phenylalanine in Severe Malaria and Implications for Pathophysiology of Neurological Complications

et al. 2006

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Cerebral malaria is associated with decreased production of nitric oxide and decreased levels of its precursor, L-arginine. Abnormal amino acid metabolism may thus be an important factor in malaria pathogenesis. We sought to determine if other amino acid abnormalities are associated with disease severity in falciparum malaria. Subjects were enrolled in Dar es Salaam, Tanzania (children) (n ‫؍‬ 126), and Papua, Indonesia (adults) (n ‫؍‬ 156), in two separate studies. Plasma samples were collected from subjects with WHO-defined cerebral malaria (children), all forms of severe malaria (adults), and uncomplicated malaria (children and adults). Healthy children and adults without fever or illness served as controls. Plasma amino acids were measured using reverse-phase high-performance liquid chromatography with fluorescence detection. Several plasma amino acids were significantly lower in the clinical malaria groups than in healthy controls. Despite the differences, phenylalanine was the only amino acid with mean levels outside the normal range ( The coma of cerebral malaria (CM) is frequently accompanied by seizures and abnormalities of muscle tone and posture (23). The mechanisms of these neurological complications are unclear; however, cerebral ischemia is unlikely to be the sole explanation, as survivors are usually neurologically intact (17). Altered amino acid metabolism in response to malaria infection may contribute to disease severity. Circulating amino acids serve primarily as substrates for protein synthesis, metabolic energy (oxidation through the carboxylic acid cycle), or gluconeogenesis and ketogenesis. Importantly, certain amino acids are also substrates for neurochemical mediators, which can be increased by inflammatory stimuli. For example, gamma interferon increases metabolism of tryptophan through the kynurenine pathway, resulting in the production of the excitatory mediators quinolinic acid, kynurenic acid, and picolinic acid. These have been investigated as possible contributors to the neurologic dysfunction of CM (15).We have previously shown that plasma levels of the nitric oxide (NO) precursor L-arginine were significantly reduced in African children with CM relative to levels in healthy controls (HC) and those with uncomplicated malaria (UM) (14). In addition, case fatality rates from CM were independently associated with the degree of hypoargininemia. These results paralleled previous work demonstrating similarly reduced systemic levels of NO metabolites and NO synthase expression in blood mononuclear cells from children with CM relative to those of patients with UM and controls (1). In extending our amino acid analysis from those previous studies, we discovered abnormalities in plasma phenylalanine levels in children with malaria. Additionally, we measured phenylalanine levels in plasma collected from Indonesian adults with severe malaria (SM) and UM. Here, we describe our findings and discuss how they may relate to the neurological complications of CM. MATERIALS AND METHODSSubjects. Plasm...

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Maurine R. Hobbs

HRPT2, encoding parafibromin, is mutated in hyperparathyroidism–jaw tumor syndrome

Mutations Affecting G-Protein Subunit α₁₁in Hypercalcemia and Hypocalcemia

A new NOS2 promoter polymorphism associated with increased nitric oxide production and protection from severe malaria in Tanzanian and Kenyan children

Uterine tumours are a phenotypic manifestation of the hyperparathyroidism‐jaw tumour syndrome

Low plasma arginine concentrations in children with cerebral malaria and decreased nitric oxide production

A promoter polymorphism in the gene encoding interleukin-12 p40 (IL12B) is associated with mortality from cerebral malaria and with reduced nitric oxide production

Nitric Oxide Synthase Type 2 Promoter Polymorphisms, Nitric Oxide Production, and Disease Severity in Tanzanian Children with Malaria

Elevated Plasma Phenylalanine in Severe Malaria and Implications for Pathophysiology of Neurological Complications

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Maurine R. Hobbs

HRPT2, encoding parafibromin, is mutated in hyperparathyroidism–jaw tumor syndrome

Mutations Affecting G-Protein Subunit α11in Hypercalcemia and Hypocalcemia

A new NOS2 promoter polymorphism associated with increased nitric oxide production and protection from severe malaria in Tanzanian and Kenyan children

Uterine tumours are a phenotypic manifestation of the hyperparathyroidism‐jaw tumour syndrome

Low plasma arginine concentrations in children with cerebral malaria and decreased nitric oxide production

A promoter polymorphism in the gene encoding interleukin-12 p40 (IL12B) is associated with mortality from cerebral malaria and with reduced nitric oxide production

Nitric Oxide Synthase Type 2 Promoter Polymorphisms, Nitric Oxide Production, and Disease Severity in Tanzanian Children with Malaria

Elevated Plasma Phenylalanine in Severe Malaria and Implications for Pathophysiology of Neurological Complications

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Mutations Affecting G-Protein Subunit α₁₁in Hypercalcemia and Hypocalcemia