转录因子 Sp1 缺乏导致肥厚型心肌病。
Deficiency of Transcription Factor Sp1 Contributes to Hypertrophic Cardiomyopathy.
机构信息
State Key Laboratory of Cardiology (F.Z., H.Z., Y.Z., L.Z., J.L., G.F., H.L., Y. Wu, R.D., X.H., Yi Liu, L.L., J.Y., D.L., Y.-H.C.), Shanghai East Hospital, Tongji University School of Medicine, China.
Shanghai Arrhythmias Research Center (F.Z., H.Z., Y.Z., L.Z., J.L., G.F., Yuanyuan Liu, Y. Wang, H.L., Y. Wu, R.D., X.H., Yi Liu, L.L., J.Y., D.L., Y.-H.C.), Shanghai East Hospital, Tongji University School of Medicine, China.
出版信息
Circ Res. 2024 Feb 2;134(3):290-306. doi: 10.1161/CIRCRESAHA.123.323272. Epub 2024 Jan 10.
BACKGROUND
Hypertrophic cardiomyopathy (HCM) is the most prevalent monogenic heart disorder. However, the pathogenesis of HCM, especially its nongenetic mechanisms, remains largely unclear. Transcription factors are known to be involved in various biological processes including cell growth. We hypothesized that SP1 (specificity protein 1), the first purified TF in mammals, plays a role in the cardiomyocyte growth and cardiac hypertrophy of HCM.
METHODS
Cardiac-specific conditional knockout of mice were constructed to investigate the role of SP1 in the heart. The echocardiography, histochemical experiment, and transmission electron microscope were performed to analyze the cardiac phenotypes of cardiac-specific conditional knockout of mice. RNA sequencing, chromatin immunoprecipitation sequencing, and adeno-associated virus experiments in vivo were performed to explore the downstream molecules of SP1. To examine the therapeutic effect of SP1 on HCM, an SP1 overexpression vector was constructed and injected into the mutant allele of Myh6 R404Q/+ ( c. 1211C>T) HCM mice. The human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) from a patient with HCM were used to detect the potential therapeutic effects of SP1 in human HCM.
RESULTS
The cardiac-specific conditional knockout of mice developed a typical HCM phenotype, displaying overt myocardial hypertrophy, interstitial fibrosis, and disordered myofilament. In addition, knockdown dramatically increased the cell area of hiPSC-CMs and caused intracellular myofibrillar disorganization, which was similar to the hypertrophic cardiomyocytes of HCM. Mechanistically, was identified as the key target gene of SP1. The hypertrophic phenotypes induced by knockdown in both hiPSC-CMs and mice could be rescued by TUFT1 (tuftelin 1) overexpression. Furthermore, SP1 overexpression suppressed the development of HCM in the mutant allele of Myh6 R404Q/+ mice and also reversed the hypertrophic phenotype of HCM hiPSC-CMs.
CONCLUSIONS
Our study demonstrates that SP1 deficiency leads to HCM. SP1 overexpression exhibits significant therapeutic effects on both HCM mice and HCM hiPSC-CMs, suggesting that SP1 could be a potential intervention target for HCM.
背景
肥厚型心肌病(HCM)是最常见的单基因心脏疾病。然而,HCM 的发病机制,尤其是其非遗传机制,在很大程度上仍不清楚。转录因子已知参与包括细胞生长在内的各种生物过程。我们假设哺乳动物中第一个被纯化的转录因子 SP1(特异性蛋白 1)在 HCM 的心肌细胞生长和心脏肥大中发挥作用。
方法
构建了心脏特异性条件性敲除 的小鼠,以研究 SP1 在心脏中的作用。通过超声心动图、组织化学实验和透射电镜分析心脏特异性条件性敲除 的小鼠的心脏表型。进行 RNA 测序、染色质免疫沉淀测序和腺相关病毒体内实验,以探索 SP1 的下游分子。为了研究 SP1 对 HCM 的治疗效果,构建了 SP1 过表达载体并注射到 Myh6 R404Q/+(c.1211C>T)HCM 小鼠的突变等位基因中。使用来自 HCM 患者的诱导多能干细胞衍生的心肌细胞(hiPSC-CMs)检测 SP1 在人类 HCM 中的潜在治疗效果。
结果
心脏特异性条件性敲除 的小鼠表现出典型的 HCM 表型,显示出明显的心肌肥大、间质纤维化和肌丝排列紊乱。此外, 敲低显著增加了 hiPSC-CMs 的细胞面积,并导致细胞内肌原纤维排列紊乱,类似于 HCM 的肥厚型心肌细胞。机制上, 被鉴定为 SP1 的关键靶基因。在 hiPSC-CMs 和小鼠中, 敲低引起的肥大表型可通过 TUFT1(tuftelin 1)过表达得到挽救。此外,SP1 过表达可抑制 Myh6 R404Q/+突变等位基因小鼠中 HCM 的发展,并逆转 HCM hiPSC-CMs 的肥大表型。
结论
本研究表明 SP1 缺乏可导致 HCM。SP1 过表达对 HCM 小鼠和 HCM hiPSC-CMs 均具有显著的治疗效果,表明 SP1 可能是 HCM 的潜在干预靶点。
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