Intrastriatal Delivery of a Zinc Finger Protein Targeting the Mutant HTT Gene Allele Obviates Lipid Phenotypes in Brain and Plasma in Huntington's Disease Mice.

等位基因 突变体 表型 生物 基因 亨廷顿蛋白 锌指 遗传学 亨廷顿病 疾病 医学 病理 转录因子
作者
Andrew Iwanowicz,Adel Boudi,Connor Seeley,Ellen Sapp,Rachael Miller,Sophia Liu,Kathryn Chase,Kai Shing,Ana Rita Batista,Miguel Siena-Esteves,Neil Aronin,Marian DiFiglia,Kimberly B. Kegel-Gleason
出处
期刊:PubMed [National Institutes of Health]
标识
DOI:10.1177/10430342251359955
摘要

Reducing the burden of mutant Huntingtin (mHTT) protein in brain cells is a strategy for treating Huntington's disease (HD). However, it is still unclear what pathological changes can be reproducibly reversed by mHTT lowering and whether these changes can be measured in peripheral biofluids. We previously found that lipid changes that occur in brain with HD progression could be prevented by attenuating HTT transcription of the mutant allele in a genetic mouse model (LacQ140) with inducible whole body lowering. Here, we tested whether intrastriatal injection of a therapeutic capable of repressing the mutant HTT allele with expanded cytosine-adenine-guanine (CAG) can provide similar protection against lipid changes in HD mice with a deletion of neo cassette (zQ175DN). Wild-type or zQ175DN mice were injected with adeno-associated virus 9 (AAV9) bearing a cDNA for a zinc finger protein (ZFP), which preferentially targets mutant HTT (ZFP-HTT) to repress transcription. Proteins from brain tissues were analyzed using western blot, capillary electrophoresis, and nitrocellulose filtration methods. Lipid analyses of brain tissue and plasma collected from the same mice were conducted by liquid chromatography and mass spectrometry (LC-MS). Somatic instability index was assessed using capillary gel electrophoresis of PCR products and was shown to be impeded by ZFP-HTT. Lowering mHTT levels by 43% for 4 months prevented loss of total lipid content including the subclasses sphingomyelin, ceramide, phosphatidylethanolamine and others of caudate-putamen in zQ175DN mice. Moreover, LC-MS analysis of plasma demonstrated total lipid increases and lipid changes in monogalactosyl monoacylglyceride and certain phosphatidylcholine species were reversed with the therapy. In summary, our data demonstrate that analyzing lipid signatures of brain tissue and peripheral biofluids are valuable approaches for evaluating potential therapies in a preclinical model of HD.

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