McLendon Patrick M, Davis Gregory, Gulick James, Singh Sonia R, Xu Na, Salomonis Nathan, Molkentin Jeffery D, Robbins Jeffrey
From the Division of Molecular Cardiovascular Biology, Heart Institute, Cincinnati Children's Hospital Medical Center, OH (P.M.M., G.D., J.G., S.R.S., N.X., J.D.M., J.R.); Division of Biomedical Informatics, Cincinnati Children's Hospital, OH (N.S.); and UES, Inc, Dayton, OH (P.M.M.).
Circ Res. 2017 Sep 1;121(6):604-616. doi: 10.1161/CIRCRESAHA.117.310945. Epub 2017 Jun 27.
Postmitotic cells, such as cardiomyocytes, seem to be particularly susceptible to proteotoxic stimuli, and large, proteinaceous deposits are characteristic of the desmin-related cardiomyopathies and crystallin cardiomyopathic diseases. Increased activity of protein clearance pathways in the cardiomyocyte, such as proteasomal degradation and autophagy, has proven to be beneficial in maintaining cellular and cardiac function in the face of multiple proteotoxic insults, holding open the possibility of targeting these processes for the development of effective therapeutics.
Here, we undertake an unbiased, total genome screen for RNA transcripts and their protein products that affect aggregate accumulations in the cardiomyocytes.
Primary mouse cardiomyocytes that accumulate aggregates as a result of a mutant CryAB (αB-crystallin) causative for human desmin-related cardiomyopathy were used for a total genome-wide screen to identify gene products that affected aggregate formation. We infected cardiomyocytes using a short hairpin RNA lentivirus library in which the mouse genome was represented. The screen identified multiple candidates in many cell signaling pathways that were able to mediate significant decreases in aggregate levels.
Subsequent validation of one of these candidates, Jak1 (Janus kinase 1), a tyrosine kinase of the nonreceptor type, confirmed the usefulness of this approach in identifying previously unsuspected players in proteotoxic processes.
有丝分裂后细胞,如心肌细胞,似乎对蛋白毒性刺激特别敏感,并且大的蛋白质沉积物是结蛋白相关心肌病和晶状体蛋白心肌病性疾病的特征。心肌细胞中蛋白质清除途径(如蛋白酶体降解和自噬)活性的增加已被证明在面对多种蛋白毒性损伤时对维持细胞和心脏功能有益,这为针对这些过程开发有效治疗方法提供了可能性。
在此,我们对影响心肌细胞中聚集体积累的RNA转录本及其蛋白质产物进行了无偏差的全基因组筛选。
使用因导致人类结蛋白相关心肌病的突变型CryAB(αB-晶状体蛋白)而积累聚集体的原代小鼠心肌细胞进行全基因组筛选,以鉴定影响聚集体形成的基因产物。我们使用代表小鼠基因组的短发夹RNA慢病毒文库感染心肌细胞。该筛选在许多细胞信号通路中鉴定出多个能够介导聚集体水平显著降低的候选物。
随后对这些候选物之一Jak1(Janus激酶1,一种非受体型酪氨酸激酶)的验证,证实了该方法在识别蛋白毒性过程中先前未被怀疑的参与者方面的有用性。