Absence of mutations in Pax6 gene in three cases of Morning Glory syndrome associated with isolated growth hormone deficiency / A ausência de mutações no gene PAX6 em três casos de síndrome de Morning Glory associada à deficiência isolada de hormônio do crescimento

Morning glory syndrome (MGS) is a congenital optic disc dysplasia often associated with craniofacial anomalies, especially basal encephalocele and hypopituitarism. Clinical signs are varied and often occult. The PAX6 gene is involved in ocular morphogenesis and is expressed in numerous ocular tissues during development especially in the developing central nervous system. The aim of the present study is to evaluate PAX6 in MGS associated with isolated growth hormone deficiency. Three pre-pubertal males (A, B and C) with MGS and short stature due to growth hormone deficiency, treated with recombinant human growth hormone with limited response, were reported. Two of them had basal encephalocele. Coding and non-coding sequences corresponding of PAX6 different transcripts were analyzed by direct sequencing. Nucleotide variations causing putative aminoacid change were not observed. Patient A presented the new IVS2+9G>A transition, whereas patients A and C were heterozygous for known single nucleotide polymorphisms (SNP) within the intron 4. In addition, two SNP heterozygoses were observed for patient C in both intron 9 and 13. Sequencing also revealed several nucleotide variations in patient B. Two heterozygoses for known polymorphisms were identified along with a novel C>A nucleotide change in intron 4. This patient also presented a low number on the TG repeat in intron 9 and a new IVS11+33A>T transversion. Gene regulation and transcription of PAX6 are complex processes; there are two major protein isoforms, PAX6(-5a) and PAX6(+5a), and nine transcripts described. Furthermore, extra transcription regulatory elements have been postulated within PAX6 introns. Considering that neither population distributions on PAX6 polymorphism nor their linkeages with diseases have been reported, a functional effect due to alterations described here cannot be discarded.

A síndrome de Morning Glory (SMG) é uma displasia óptica congênita associada a anomalias craniofaciais, principalmente encefalocele basal e hipopituitarismo. Os sinais clínicos são variados e muitas vezes ocultos. O gene PAX6 está envolvido na morfogênese ocular e se expressa em vários tecidos oculares durante o desenvolvimento do sistema nervoso central. O objetivo deste estudo foi avaliar o gene PAX6 na SMG associada com deficiência isolada de hormônio de crescimento. Foram relatados três pacientes pré-púberes (A, B e C) com SMG e baixa estatura por deficiência de hormônio de crescimento tratados com hormônio de crescimento recombinante humano. As seqüências codificadoras e não-codificadoras correspondentes ao PAX6 em diferentes transcritos foram analisadas por seqüenciamento direto. Variações nucleotídeas com trocas pontuais de aminoácidos não foram encontradas. O paciente A apresentou uma transição nova IVS2+9G>A, enquanto os pacientes A e C foram heterozigotos para um polimorfismo (SNP) no íntron 4. Ainda, dois SNPs em heterozigose nos íntrons 9 e 13 foram observados no paciente C. O seqüenciamento também mostrou várias variações nucleotídeas no paciente B. Dois SNPs conhecidos com a alteração nucleotídea nova C>A no íntron 4 foram observados em heterozigose. Este paciente também apresentou um baixo número de repetições TG no íntron 9 e uma nova transversão IVS11+33A>T. A regulação e a transcrição do gene PAX6 são um processo complexo; existem 2 isoformas principais da proteína, PAX6(-5a) e PAX6(+5a) e 9 transcritos descritos. Considerando que nem a distribuição de SNPs no PAX6 e nem as suas ligações com as doenças foram relatadas, um defeito funcional devido às alterações descritas não pode ser descartado.

Absence of mutations in Pax6 gene in three cases of morning glory syndrome associated with isolated growth hormone deficiency.

Morning glory syndrome (MGS) is a congenital optic disc dysplasia often associated with craniofacial anomalies, especially basal encephalocele and hypopituitarism. Clinical signs are varied and often occult. The PAX6 gene is involved in ocular morphogenesis and is expressed in numerous ocular tissues during development especially in the developing central nervous system. The aim of the present study is to evaluate PAX6 in MGS associated with isolated growth hormone deficiency. Three pre-pubertal males (A, B and C) with MGS and short stature due to growth hormone deficiency, treated with recombinant human growth hormone with limited response, were reported. Two of them had basal encephalocele. Coding and non-coding sequences corresponding of PAX6 different transcripts were analyzed by direct sequencing. Nucleotide variations causing putative aminoacid change were not observed. Patient A presented the new IVS2+9G>A transition, whereas patients A and C were heterozygous for known single nucleotide polymorphisms (SNP) within the intron 4. In addition, two SNP heterozygoses were observed for patient C in both intron 9 and 13. Sequencing also revealed several nucleotide variations in patient B. Two heterozygoses for known polymorphisms were identified along with a novel C>A nucleotide change in intron 4. This patient also presented a low number on the TG repeat in intron 9 and a new IVS11+33A>T transversion. Gene regulation and transcription of PAX6 are complex processes; there are two major protein isoforms, PAX6(-5a) and PAX6(+5a), and nine transcripts described. Furthermore, extra transcription regulatory elements have been postulated within PAX6 introns. Considering that neither population distributions on PAX6 polymorphism nor their linkeages with diseases have been reported, a functional effect due to alterations described here cannot be discarded.

Joubert-like syndrome unlinked to known candidate loci.

We observed the Joubert syndrome (JS) associated with bilateral morning glory disk anomaly and cystic dysplastic kidneys in three patients from a consanguineous kindred. Homozygosity mapping excluded three JS candidate loci as sites harboring the disease gene. We thus delineate an autosomal recessive disorder, distinct from JS and related conditions.

Síndrome de De Morsier. Presentación de un caso con antecedentes de distrofia muscular progresiva en el padre / De Morsier's syndrome. Report of a case with antecedents of progressive muscular distrophy in the father

Se describen las manifestaciones clínicas observadas en una niña de tres años con diagnóstico de síndrome de De Morsier, en la que se recoge el antecedente paterno de distrofia muscular progresiva. Ambas enfermedades tienen una baja incidencia en la población y posible factor hereditario. Aunque esta asociación puede ser casual, es señalada pues no se han encontrado reportes previos en la literatura

African, Native American, and European mitochondrial DNAs in Cubans from Pinar del Rio Province and implications for the recent epidemic neuropathy in Cuba. Cuba Neuropathy Field Investigation Team.

Genetic predisposition, particularly specific mitochondrial DNA (mtDNA) backgrounds, has been proposed as a contributing factor in the expression of an epidemic of bilateral optic neuropathy that has affected residents of Cuba since 1991. To substantiate or refute the possibility that specific subsets of mtDNAs could participate in disease expression, we took advantage of the heterogeneous ethnic origin of the Cuban population and the recent identification of a number of mtDNA polymorphisms that appear to be specific for Africans, Native Americans, and Europeans. The screening of both carefully selected people with epidemic neuropathy and control subjects from the Pinar del Rio Province for these polymorphisms revealed that African, Native American, and European mtDNA haplotypes were equally represented among case and control subjects, and suggested that approximately 50% of Cuban mtDNAs originated from Europeans, 46% from Africans, and 4% from Native Americans. These findings demonstrate that mutations arising in specific mtDNAs are unlikely to play a role in the epidemic neuropathy and indicate that analysis of mtDNA haplotypes can be a valuable tool for assessing the relative maternal contribution of Africans, Native Americans, and Europeans in a mixed population.

Cuban epidemic optic neuropathy. Mitochondrial DNA analysis.

OBJECTIVE: To search for mitochondrial DNA (mtDNA) mutations previously associated with Leber's hereditary optic neuropathy (LHON) in patients with an optic neuropathy that appeared in epidemic form in Cuba. METHODS: Twelve Cuban patients underwent a comprehensive neuro-ophthalmologic examination and were found to have a characteristic optic neuropathy, Cuban epidemic optic neuropathy (CEON). At the same time, one patient was diagnosed with typical LHON that occurred during the epidemic. Blood samples were taken from these patients as well as from 3 controls with normal neuro-ophthalmologic examinations. These samples were blindly analyzed for 9 LHON-associated mtDNA mutations by molecular genetic methods. RESULTS: CEON bore clinical and epidemiological similarity to LHON, however, family histories, systemic symptoms (especially weight loss and polyuria), and symptoms of peripheral neuropathy permitted a clinical distinction. None of the 12 patients with CEON or 3 controls had any of the LHON-associated mtDNA mutations. Only the patient with clinical LHON, who did not meet the case definition for CEON, harbored the 11778 mtDNA mutation. CONCLUSIONS: Known mtDNA mutations are not found frequently in CEON patients but they may contribute to some cases of Cuban optic neuropathy. CEON may represent an acquired variety of mitochondrial dysfunction induced by nutritional deficiencies, toxins, or both. Alternatively, CEON patients may also harbor as yet undiscovered mtDNA mutations that contribute to their genetic susceptibility.

Mitochondrial DNA mutations in Cuban optic and peripheral neuropathy.

OBJECTIVE: To investigate the potential role of mitochondrial DNA (mtDNA) mutations in the recent outbreak in Cuba of optic neuropathy and peripheral neuropathy (COPN). DESIGN AND METHODS: Historical features were reviewed and neuro-ophthalmologic examinations were performed on a sample of COPN patients (n = 9) and Cuban patients with other forms of optic neuropathy (n = 2). Molecular genetic methods were then used to test for the presence of 9 mtDNA mutations that were previously associated with Leber's hereditary optic neuropathy (LHON). RESULTS: Two (22%) of 9 COPN patients harbored an LHON-associated mtDNA mutation at nucleotide position 9438 and a novel mutation at nucleotide position 9738 in the cytochrome c oxidase subunit III gene. None of the Cuban patients harbored any of the 8 other LHON-associated mtDNA mutations. Detailed sequence analysis revealed that the Cuban patients could be divided into 7 distinct mtDNA haplotypes and that the 2 COPN patients with mtDNA mutations in the cytochrome c oxidase subunit III gene were not members of the same maternal lineage. CONCLUSIONS: The pathogenesis of epidemic COPN is likely complex and multifactorial. Our preliminary results in a small sample of Cuban patients suggest that mtDNA mutations may play a role in some cases. mtDNA mutations may render an individual genetically susceptible to a variety of factors that impair oxidative phosphorylation, including nutritional deficiency, tobacco, alcohol, and other toxins.

Epidemic neuropathy in Cuba not associated with mitochondrial DNA mutations found in Leber's hereditary optic neuropathy patients. Cuba Neuropathy Field Investigation Team.

An epidemic neuropathy in Cuba has caused bilateral optic neuropathies in more than 26,000 people during the past three years. Various pathogenetic factors have been proposed, including toxins, nutritional deficiencies, and an underlying genetic predisposition involving mitochondrial DNA. As part of a case-control collaborative investigation, 135 Cuban blood samples were analyzed for the most common mitochondrial DNA mutations associated with Leber's hereditary optic neuropathy. None of the participants tested were found to have the mitochondrial DNA mutations at nucleotide positions 11778, 3460, 14484, 7444, or 9804. Of 57 definite case subjects and 69 normal control subjects, three case and three control subjects had the mutation at nucleotide position 9438, three different case and three different control subjects had the mutation at position 13708, and one case and one control subject had the mutation at position 15257 in association with the mutation at position 13708. The most common mitochondrial DNA mutations associated with Leber's hereditary optic neuropathy do not appear to be contributing factors in the epidemic neuropathy in Cuba. We also identified a large Cuban family with maternally related members who experienced visual loss consistent with the diagnosis of Leber's hereditary optic neuropathy. Maternal family members harbored the highly pathogenetic mutation at nucleotide position 11778.