Ian Barr, Sara H Weitz, Talia Atkin, PeiKen Hsu, Maria Karayiorgou, Joseph A Gogos, Shimon Weiss, Feng Guo
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引用次数: 12
摘要
microRNA初级转录本(pri-miRNAs)的加工受到高度调控,加工机制中的缺陷在许多人类疾病中起着关键作用。在22q11.2缺失综合征(22q11.2 ds)中,乔治关键区基因8 (DGCR8)的杂合缺失导致加工缺陷,从而导致大脑发育异常。DGCR8蛋白是Drosha RNase的rna结合伙伴,两者都是处理典型pri-miRNAs所必需的。为了确定一种可以补偿DGCR8表达减少的药物,我们筛选了可以模拟天然DGCR8血红素辅助因子的金属卟啉。我们发现Co(III) protoporphyrin IX (PPIX)在体外和HeLa细胞中稳定地结合DGCR8并激活其进行pri-miRNA加工。重要的是,用Co(III)PPIX处理培养的Dgcr8(+/-)小鼠神经元可以补偿pri-miRNA加工缺陷。Co(III)PPIX在低至0.2 μM的浓度下有效,并且不被血红素降解酶降解,使其成为有用的研究工具和潜在的治疗药物。
Cobalt(III) Protoporphyrin Activates the DGCR8 Protein and Can Compensate microRNA Processing Deficiency.
Processing of microRNA primary transcripts (pri-miRNAs) is highly regulated and defects in the processing machinery play a key role in many human diseases. In 22q11.2 deletion syndrome (22q11.2DS), heterozygous deletion of DiGeorge critical region gene 8 (DGCR8) causes a processing deficiency, which contributes to abnormal brain development. The DGCR8 protein is the RNA-binding partner of Drosha RNase, both essential for processing canonical pri-miRNAs. To identify an agent that can compensate reduced DGCR8 expression, we screened for metalloporphyrins that can mimic the natural DGCR8 heme cofactor. We found that Co(III) protoporphyrin IX (PPIX) stably binds DGCR8 and activates it for pri-miRNA processing in vitro and in HeLa cells. Importantly, treating cultured Dgcr8(+/-) mouse neurons with Co(III)PPIX can compensate the pri-miRNA processing defects. Co(III)PPIX is effective at concentrations as low as 0.2 μM and is not degraded by heme degradation enzymes, making it useful as a research tool and a potential therapeutic.
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