Your search keyword '"Lux, Samuel E."' showing total 5 results

1. Ankyrin and the Hemolytic Anemia Mutation, nb, Map to Mouse Chromosome 8: Presence of the nb Allele is Associated with a Truncated Erythrocyte Ankyrin

Author

White, Robert A., Birkenmeier, Connie S., Lux, Samuel E., and Barker, Jane E.

Published

1990

2. Purkinje Cell Degeneration Associated with Erythroid Ankyrin Deficiency in nb/nb Mice

Author

Peters, Luanne L., Birkenmeier, Connie S., Bronson, Roderick T., White, Robert A., Lux, Samuel E., Otto, Edward, Bennett, Vann, Higgins, Ann, and Barker, Jane E.

Published

1991

3. Loss-of-function and gain-of-function phenotypes of stomatocytosis mutant RhAG F65S.

Author

Stewart, Andrew K., Shmukler, Boris E., Vandorpe, David H., Rivera, Alicia, Heneghan, John F., Xiaojin Li, Hsu, Ann, Karpatkin, Margaret, O'Neill, Allison F., Bauer, Daniel E., Heeney, Matthew M., John, Kathryn, Kuypers, Frans A., Gallagher, Patrick G., Lux, Samuel E., Brugnara, Carlo, Westhoff, Connie M., and Alper, Seth L.

Subjects

PHENOTYPES, GENETIC mutation, ERYTHROCYTES, XENOPUS, OVUM, PERMEABILITY, AMINES

Abstract

Four patients with overhydrated cation leak stomatocytosis (OHSt) exhibited the heterozygous RhAG missense mutation F65S. OHSt erythrocytes were osmotically fragile, with elevated Na and decreased K contents and increased cation channel-like activity. Xenopus oocytes expressing wildtype RhAG and RhAG F65S exhibited increased ouabain and bumetanide-resistant uptake of Li+ and 86Rb+, with secondarily increased 86Rb+ influx sensitive to ouabain and to bumetanide. Increased RhAG-associated 14C-methylammonium (MA) influx was severely reduced in RhAG F65S-expressing oocytes. RhAG-associated influxes of Li+, 86Rb+, and 14C-MA were pharmacologically distinct, and Li+ uptakes associated with RhAG and RhAG F65S were differentially inhibited by NH4+ and Gd3+. RhAG-expressing oocytes were acidified and depolarized by 5 mM bath NH3/NH4+, but alkalinized and depolarized by subsequent bath exposure to 5 mM methylammonium chloride (MA/MA+). RhAG F65S-expressing oocytes exhibited near-wildtype responses to NH4Cl, but MA/MA+ elicited attenuated alkalinization and strong hyperpolarization. Expression of RhAG or RhAG F65S increased steady-state cation currents unaltered by bath Li+ substitution or bath addition of 5 mM NH4Cl or MA/MA+. These oocyte studies suggest that 1) RhAG expression increases oocyte transport of NH3/NH4+ and MA/MA+; 2) RhAG F65S exhibits gain-of-function phenotypes of increased cation conductance/permeability, and loss-of-function phenotypes of decreased and modified MA/MA+ transport, and decreased NH3/NH4+ -associated depolarization; 3) RhAG transports NH3/NH4+ and MA/MA+ by distinct mechanisms, and/or the substrates elicit distinct cellular responses. Thus, RhAG F65S is a loss-of-function mutation for amine transport. The altered oocyte pHi, Vm, and currents associated with RhAG or RhAG F65S expression may reflect distinct transport mechanisms. [ABSTRACT FROM AUTHOR]

Published

2011

4. Targeted deletion of βlll spectrin impairs synaptogenesis and generates ataxic and seizure phenotypes.

Author

Stankewich, Michael C., Gwynn, Babette, Ardito, Thomas, Ian Ji, Jung Kim, Robledo, Raymond F., Lux, Samuel E., Peters, Luanne L., and Morrow, Jon S.

Subjects

SPECTRIN, GENETIC mutation, ATAXIA, CEREBELLAR ataxia, GLUTAMIC acid, MYOCLONUS, NEUROPEPTIDE Y, LABORATORY mice, GENETICS, PHYSIOLOGY

Abstract

The spectrin membrane skeleton controls the disposition of selected membrane channels, receptors, and transporters. In the brain βIll spectrin binds directly to the excitatory amino acid transporter (EAAT4), the glutamate receptor delta, and other proteins. Mutations in βlll spectrin link strongly to human spinocerebellar ataxia type 5 (SCA5), correlating with alterations in EAAT4. We have explored the mechanistic basis of this phenotype by targeted gene disruption of Spnb3; Mice lacking intact βlll spectrin develop normally. By 6 months they display a mild nonprogressive ataxia. By 1 year most Spnb3-/- animals develop a myoclonic seizure disorder with significant reductions of EAAT4, EAAT1,. GluRδ, IP3R, and NCAM140. Other synaptic proteins are normal. The cerebellum displays increased dark Purkinje cells (PC), a thin molecular layer, fewer synapses, a loss of dendritic spines, and a 2-fold expansion of the PC dendrite diameter. Membrane and expanded Golgi profiles fill the PC dendrite and soma, and both regions accumulate EAAT4. Correlating with the seizure disorder are enhanced hippocampal levels of neuropeptide V and EAAT3 and increased calpain proteolysis of all spectrin. It appears that δlll spectrin disruption impairs synaptogenesis by disturbing the intracellular pathways selectively regulating protein trafficking to the synapse. The mislocalization of these proteins secondarily disrupts glutamate transport dynamics, leading to seizures, neuronal damage, and compensatory changes in EAAT3 and neuropeptide Y. [ABSTRACT FROM AUTHOR]

Published

2010

5. Simultaneous (AC)n microsatellite polymorphism analysis and single-stranded conformation polymorphism screening is an efficient strategy for detecting ankyrin-1 mutations in dominant hereditary spherocytosis.

Author

Özcan, Refik, Jarolim, Petr, Lux, Samuel E., Ungewickell, Ernst, and Eber, Stefan W.

Subjects

HEMOLYTIC anemia, MICROSATELLITE repeats, GENETIC polymorphisms, GENETIC mutation

Abstract

Summary. Nonsense/stop mutations in the ankyrin-1 gene (ANK1 ) are a major cause of dominant HS (dHS) (frequency of 23% in German dHS patients). To date, no common mutation has been found and therefore a simple mutation screening is not feasible. The reduced expression of one cDNA allele in the (AC)n microsatellite polymorphism of the ankyrin-1 gene, as seen in about 20% of Czech patients with dHS, may identify candidates with a possible frameshift/nonsense mutation. In order to verify the efficiency of this screening we screened the ankyrin-1 gene of 22 Czech dHS patients for both the reduced cDNA allele expression in the frequent (AC)n and the common exonic 26/39 polymorphisms, as well as for polymerase chain reaction (PCR) single-stranded conformation polymorphisms in any one of the 42 exons of ANK1 . Anomalous PCR products were sequenced. We found seven new ANK1 frameshift/nonsense mutations in nine patients with, but in none of six patients without, a reduced cDNA allele expression (efficiency of 78%). We conclude that screening of dHS patients for such a reduced allele expression in common ANK1 polymorphisms is an efficient procedure for the identification of candidates for frameshift/nonsense mutations in the ankyrin-1 gene. [ABSTRACT FROM AUTHOR]

Published

2003