Jana Schroth scite author profile

Hereditary spastic paraplegias (HSPs) are neurodegenerative motor neuron diseases characterized by progressive age-dependent loss of corticospinal motor tract function. Although the genetic basis is partly understood, only a fraction of cases can receive a genetic diagnosis, and a global view of HSP is lacking. By using whole-exome sequencing in combination with network analysis, we identified 18 previously unknown putative HSP genes and validated nearly all of these genes functionally or genetically. The pathways highlighted by these mutations link HSP to cellular transport, nucleotide metabolism, and synapse and axon development. Network analysis revealed a host of further candidate genes, of which three were mutated in our cohort. Our analysis links HSP to other neurodegenerative disorders and can facilitate gene discovery and mechanistic understanding of disease.

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SGLT2 Mediates Glucose Reabsorption in the Early Proximal Tubule

Vallon¹,

Platt²,

Cunard³

et al. 2011

471

430

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Mutations in the gene encoding for the Na ϩ -glucose co-transporter SGLT2 (SLC5A2) associate with familial renal glucosuria, but the role of SGLT2 in the kidney is incompletely understood. Here, we determined the localization of SGLT2 in the mouse kidney and generated and characterized SGLT2-deficient mice. In wild-type (WT) mice, immunohistochemistry localized SGLT2 to the brush border membrane of the early proximal tubule. Sglt2 Ϫ/Ϫ mice had glucosuria, polyuria, and increased food and fluid intake without differences in plasma glucose concentrations, GFR, or urinary excretion of other proximal tubular substrates (including amino acids) compared with WT mice. SGLT2 deficiency did not associate with volume depletion, suggested by similar body weight, BP, and hematocrit; however, plasma renin concentrations were modestly higher and plasma aldosterone levels were lower in Sglt2mice. Whole-kidney clearance studies showed that fractional glucose reabsorption was significantly lower in Sglt2 Ϫ/Ϫ mice compared with WT mice and varied in Sglt2 Ϫ/Ϫ mice between 10 and 60%, inversely with the amount of filtered glucose. Free-flow micropuncture revealed that for early proximal collections, 78 Ϯ 6% of the filtered glucose was reabsorbed in WT mice compared with no reabsorption in Sglt2 Ϫ/Ϫ mice. For late proximal collections, fractional glucose reabsorption was 93 Ϯ 1% in WT and 21 Ϯ 6% in Sglt2 Ϫ/Ϫ mice, respectively. These results demonstrate that SGLT2 mediates glucose reabsorption in the early proximal tubule and most of the glucose reabsorption by the kidney, overall. This mouse model mimics and explains the glucosuric phenotype of individuals carrying SLC5A2 mutations. 22: 104 -112, 201122: 104 -112, . doi: 10.1681 Glucose is the main source of energy in eukaryotic organisms. The homeostasis of glucose is maintained by intestinal glucose absorption and the coordinated regulation of hepatic and renal glucose production, as well as tissue consumption of glucose. As a consequence of renal glomerular filtration, approximately 180 g/d glucose enter the tubular system of the kidneys in a healthy individual with normoglycemia, which is equivalent to approximately one third of the total energy consumed by the human body. Glucose in urine, however, is absent or at very low concentrations in healthy adults (range 0.03 to 0.30 g/d) as a result of near complete reabsorption along the nephron segments, primarily in the proximal tubule. The genes encoding transporter proteins participating in renal J Am Soc Nephrol

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Mutations in BCKD-kinase Lead to a Potentially Treatable Form of Autism with Epilepsy

Novarino

El-Fishawy

Kayserili

et al. 2012

Science

282

230

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Autism spectrum disorders are a genetically heterogeneous constellation of syndromes characterized by impairments in reciprocal social interaction. Available somatic treatments have limited efficacy. We have identified inactivating mutations in the gene BCKDK (Branched Chain Ketoacid Dehydrogenase Kinase) in consanguineous families with autism, epilepsy, and intellectual disability. The encoded protein is responsible for phosphorylation-mediated inactivation of the E1α subunit of branched-chain ketoacid dehydrogenase (BCKDH). Patients with homozygous BCKDK mutations display reductions in BCKDK messenger RNA and protein, E1α phosphorylation, and plasma branched-chain amino acids. Bckdk knockout mice show abnormal brain amino acid profiles and neurobehavioral deficits that respond to dietary supplementation. Thus, autism presenting with intellectual disability and epilepsy caused by BCKDK mutations represents a potentially treatable syndrome.

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Jana Schroth

Exome Sequencing Links Corticospinal Motor Neuron Disease to Common Neurodegenerative Disorders

SGLT2 Mediates Glucose Reabsorption in the Early Proximal Tubule

Mutations in BCKD-kinase Lead to a Potentially Treatable Form of Autism with Epilepsy

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