Key Laboratory of Endocrinology of National Health Commission, Diabetes Research Center of Chinese Academy of Medical Sciences, Department of Endocrinology, Peking Union Medical College Hospital, Peking Union Medical College, Chinese Academy of Medical Sciences, Beijing, People's Republic of China.
Department of Endocrinology, Beijing Chaoyang Hospital, Capital Medical University, Beijing, People's Republic of China.
Am J Physiol Endocrinol Metab. 2024 Sep 1;327(3):E357-E370. doi: 10.1152/ajpendo.00094.2024. Epub 2024 Jul 17.
Familial partial lipodystrophy 3 (FPLD3) is a rare genetic disorder caused by loss-of-function mutations in the gene, characterized by a selective absence of subcutaneous fat and associated metabolic complications. However, the molecular mechanisms of FPLD3 remain unclear. In this study, we recruited a 17-yr-old Chinese female with FPLD3 and her family, identifying a novel frameshift mutation (exon 4: c.418dup: p.R140Kfs*7) that truncates the PPARγ protein at the seventh amino acid, significantly expanding the genetic landscape of FPLD3. By performing next-generation sequencing of circular RNAs (circRNAs), microRNAs (miRNAs), and mRNAs in plasma exosomes, we discovered 59 circRNAs, 57 miRNAs, and 299 mRNAs were significantly altered in the mutation carriers compared with the healthy controls. Integration analysis highlighted that the circ_0001597-miR-671-5p pair and 18 mRNAs might be incorporated into the metabolic regulatory networks of the FPLD3 induced by the novel mutation. Functional annotation suggested that these genes were significantly enriched in glucose- and lipid metabolism-related pathways. Among the circRNA-miRNA-mRNA network, we identified two critical regulators, early growth response-1 (), a key transcription factor known for its role in insulin signaling pathways and lipid metabolism, and 1-acylglycerol-3-phosphate -acyltransferase 3 (), which gets involved in the biosynthesis of triglycerides and lipolysis. Circ_0001597 regulates the expression of these genes through miR-671-5p, potentially contributing to the pathophysiology of FPLD3. Overall, this study clarified a circulating exosomal circRNA-miRNA-mRNA network in a FPLD3 family with a novel mutation, providing evidence for exploring promising biomarkers and developing novel therapeutic strategies for this rare genetic disorder. Through the establishment of a ceRNA regulatory networks in a novel frameshift mutation c.418dup-induced FPLD3 pedigree, this study reveals that circ_0001597 may contribute to the pathophysiology of FPLD3 by sequestering miR-671-5p to regulate the expression of and , pivotal genes situated in the triglyceride (TG) synthesis and lipolysis pathways. Current findings expand our molecular understanding of adipose tissue dysfunction, providing potential blood biomarkers and therapeutic avenues for lipodystrophy and associated metabolic complications.
家族性部分脂肪营养不良 3 型(FPLD3)是一种罕见的遗传性疾病,由 基因的功能丧失突变引起,其特征是皮下脂肪选择性缺失,并伴有代谢并发症。然而,FPLD3 的分子机制仍不清楚。在这项研究中,我们招募了一名患有 FPLD3 的 17 岁中国女性及其家族成员,发现了一种新的框移突变(exon 4:c.418dup:p.R140Kfs*7),该突变导致 PPARγ 蛋白在第七个氨基酸处截断,显著扩大了 FPLD3 的遗传图谱。通过对血浆外泌体中的环状 RNA(circRNA)、microRNA(miRNA)和信使 RNA(mRNA)进行下一代测序,我们发现突变携带者与健康对照组相比,有 59 个 circRNA、57 个 miRNA 和 299 个 mRNA 显著改变。整合分析突出表明,circ_0001597-miR-671-5p 对和 18 个 mRNA 可能被纳入由新型 突变引起的 FPLD3 代谢调节网络。功能注释表明,这些基因在葡萄糖和脂质代谢相关途径中显著富集。在 circRNA-miRNA-mRNA 网络中,我们鉴定了两个关键调节剂,早期生长反应蛋白-1(),作为胰岛素信号通路和脂质代谢关键转录因子的已知作用,和 1-酰基甘油-3-磷酸酰基转移酶 3(),参与甘油三酯的生物合成和脂肪分解。Circ_0001597 通过 miR-671-5p 调节这些基因的表达,可能有助于 FPLD3 的病理生理学。总的来说,本研究阐明了一个新型 突变 FPLD3 家族中的循环外泌体 circRNA-miRNA-mRNA 网络,为探索这种罕见遗传性疾病的有前途的生物标志物和开发新的治疗策略提供了证据。通过建立一个 novel 框移突变 c.418dup 诱导的 FPLD3 家系中的 ceRNA 调控网络,本研究揭示 circ_0001597 可能通过结合 miR-671-5p 来调节位于甘油三酯(TG)合成和脂肪分解途径中的关键基因和的表达,从而导致 FPLD3 的病理生理学。本研究结果扩展了我们对脂肪组织功能障碍的分子认识,为脂肪营养不良和相关代谢并发症提供了潜在的血液生物标志物和治疗途径。
