Weiyuan Ma scite author profile

A low-carbohydrate ketogenic diet remains one of the most effective (but mysterious) treatments for severe pharmacoresistant epilepsy. We have tested for an acute effect of physiological ketone bodies on neuronal firing rates and excitability, to discover possible therapeutic mechanisms of the ketogenic diet. Physiological concentrations of ketone bodies (␤-hydroxybutyrate or acetoacetate) reduced the spontaneous firing rate of neurons in slices from rat or mouse substantia nigra pars reticulata. This region is thought to act as a "seizure gate," controlling seizure generalization. Consistent with an anticonvulsant role, the ketone body effect is larger for cells that fire more rapidly. The effect of ketone bodies was abolished by eliminating the metabolically sensitive K ATP channels pharmacologically or by gene knock-out. We propose that ketone bodies or glycolytic restriction treat epilepsy by augmenting a natural activity-limiting function served by K ATP channels in neurons.

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Tsx Produces a Long Noncoding RNA and Has General Functions in the Germline, Stem Cells, and Brain

Anguera

et al. 2011

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The Tsx gene resides at the X-inactivation center and is thought to encode a protein expressed in testis, but its function has remained mysterious. Given its proximity to noncoding genes that regulate X-inactivation, here we characterize Tsx and determine its function in mice. We find that Tsx is actually noncoding and the long transcript is expressed robustly in meiotic germ cells, embryonic stem cells, and brain. Targeted deletion of Tsx generates viable offspring and X-inactivation is only mildly affected in embryonic stem cells. However, mutant embryonic stem cells are severely growth-retarded, differentiate poorly, and show elevated cell death. Furthermore, male mice have smaller testes resulting from pachytene-specific apoptosis and a maternal-specific effect results in slightly smaller litters. Intriguingly, male mice lacking Tsx are less fearful and have measurably enhanced hippocampal short-term memory. Combined, our study indicates that Tsx performs general functions in multiple cell types and links the noncoding locus to stem and germ cell development, learning, and behavior in mammals.

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A mixed modality approach towards Xi reactivation for Rett syndrome and other X-linked disorders

Carrette

Wang

Wei

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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The X-chromosome harbors hundreds of disease genes whose associated diseases predominantly affect males. However, a subset, including neurodevelopmental disorders, Rett syndrome (RTT), fragile X syndrome, and CDKL5 syndrome, also affects females. These disorders lack disease-specific treatment. Because female cells carry two X chromosomes, an emerging treatment strategy has been to reawaken the healthy allele on the inactive X (Xi). Here, we focus on methyl-CpG binding protein 2 (MECP2) restoration for RTT and combinatorially target factors in the interactome of Xist, the noncoding RNA responsible for X inactivation. We identify a mixed modality approach combining an Xist antisense oligonucleotide and a small-molecule inhibitor of DNA methylation, which, together, achieve 30,000-fold MECP2 up-regulation from the Xi in cultured cells. Combining a brain-specific genetic ablation with short-term 5-aza-2'-deoxycytidine (Aza) treatment models the synergy in vivo without evident toxicity. The Xi is selectively reactivated. These experiments provide proof of concept for a mixed modality approach for treating X-linked disorders in females.

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Weiyuan Ma

Ketogenic Diet Metabolites Reduce Firing in Central Neurons by Opening K_ATPChannels

Tsx Produces a Long Noncoding RNA and Has General Functions in the Germline, Stem Cells, and Brain

A mixed modality approach towards Xi reactivation for Rett syndrome and other X-linked disorders

Contact Info

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Weiyuan Ma

Ketogenic Diet Metabolites Reduce Firing in Central Neurons by Opening KATPChannels

Tsx Produces a Long Noncoding RNA and Has General Functions in the Germline, Stem Cells, and Brain

A mixed modality approach towards Xi reactivation for Rett syndrome and other X-linked disorders

Contact Info

Product

Resources

About

Ketogenic Diet Metabolites Reduce Firing in Central Neurons by Opening K_ATPChannels