Hypermanganesemia with dystonia, polycythemia and cirrhosis in 10 patients: Six novel SLC30A10 mutations and further phenotype delineation.

Biallelic mutations in the SLC30A10 gene cause an inborn error of Mn metabolism characterized by hypermanganesemia, polycythemia, early-onset dystonia, and liver cirrhosis (HMDPC). To date, only 14 families from various ethnic groups have been reported. Here, we describe 10 patients from 7 unrelated Egyptian families with HMDPC. Markedly elevated blood Mn levels, the characteristic basal ganglia hyperintensity on T1-weighted images, and variable degrees of extrapyramidal manifestations with or without liver disease were cardinal features in all patients. Eight patients presented with striking early diseased onset (≤2 years). Unexpectedly, early hepatic involvement before the neurological regression was noted in 3 patients. Mutational analysis of SLC30A10 gene revealed 6 novel homozygous mutations (c.77T > C (p.Leu26Pro), c.90C > G (p.Tyr30*), c.119A > C (p.Asp40Ala), c.122_124delCCT (p.Ser41del), c.780_782delCAT (p.Iso260del) and c.957 + 1G > C). Treatment using 2,3 dimercaptosuccinic acid as a manganese chelating agent showed satisfactory results with improvement of biochemical markers, hepatic manifestations and relative amelioration of the neurological symptoms. Our findings present a large cohort of patients with HMDPC from same ethnic group. The majority of our patients showed severe and early presentation with clear phenotypic variability among sibship. Moreover, we extend the phenotypic and mutational spectrum and emphasize the importance of early diagnosis and treatment of this potentially fatal disorder.

Mitochondrial Neurogastrointestinal Encephalopathy: Clinical, Biochemical and Molecular Study in Three Egyptian Patients.

Background: Mitochondrial Neurogastrointestinal Encephalopathy syndrome is a rare autosomal recessive disorder. The disease is caused by mutations in the thymidine phosphorylase gene. This article reports the clinical, biochemical and molecular findings in three Egyptian patients with Mitochondrial Neurogastrointestinal Encephalopathy sundrome from two different pedigrees. Subjects and Methods: The three patients were subjected to thorough neurologic examination. Brain Magtnetic Resonance Imaging. Histochemical and biochemical assay of the mitochondrial respiratory chain complexes in muscle homogenate was performed (1/3). Thymidine Phosphorylase enzyme activity was performed in 2/3 patients and Thymidine Phosphorylase gene sequencing was done (2/3) to confirm the diagnosis. Results: All patients presented with symptoms of severe gastrointestinal dysmotility with progressive cachexia, neuropathy, sensory neural hearing loss, asymptomatic leukoencephalopathy. Histochemical analysis of themuscle biopsy revealed deficient cytochrome C oxidase and mitochrondrial respiratory chain enzyme assay revealed isolated complex 1 deficiency (1/3). Thymidine Phosphorylase enzyme activity revealed complete absence of enzyme activity in 2/3 patients. Direct sequencing of Thymidine Phosphorylase gene revealed c.3371 A>C homozygous mutation. Molecular screening of both families revealed heterozygous mutation in both parents and 4 siblings. Conclusions: Mitochondrial Neurogastrointestinal Encephalopathy syndrome is a rare mitochondrial disorder with an important diagnostic delay. In case of pathogenic mutations in Thymidine Phosphorylase gene in the family, carrier testing and prenatal diagmosis of at risk members is recommended for early detection. The possibility of new therapeutic options makes it necessary to diagnose the disease in an early state.

Effect of starvation on resuscitation and the surface characteristics of bacteria.

Resuscitation behavior of bacteria after starvation for carbon and nitrogen was investigated. In addition effect of carbon and nitrogen starvation conditions on the surface characteristics and adhesive properties of bacteria were studied. Two pure culture herbicide degrading bacteria were used in the study: Pseudomonas sp. strain A, and Rhodococcus corallinus strain 11. These bacteria are known to degrade cyanuric acid which is a derivative of s-triazine, a common herbicide used widely. Selected bacteria were starved for carbon (glucose) and nitrogen (cyanuric acid) in different bioreactors and their physiological responses to starvation and resuscitation were measured. Different resuscitation responses were observed under different starvation conditions such that long lag phase was, observed for Rhodococcus corallinus strain 11 subjected to cyanuric acid starvation. Slow exponential growth rates were calculated for both microorganisms subjected to cyanuric acid starvation. The surface properties of both microorganisms were investigated using MATH test with two different hydrocarbons (hexadecane and octane). Hexadecane was observed to be the best organic attachment phase for these tests. Surface hydrophobiciy for all the microorganisms stayed unchanged during carbon starvation conditions. Significant decrease in hydrophobicity was observed for both cultures starved for nitrogen. When the hydrophobicity of the cultures decreased, the attachment capabilities of the microorganisms decreased. The decrease in attachment capabilities is a result of highly hydrated extracellular polysaccharides produced in the presence of carbon in the medium. Results of this study can be used as control tools in soil remediation applications.