Biological and metabolomic insights into RACGAP1-mediated growth and progression of clear cell renal cell carcinoma.

IF 4.7 2区生物学 Q2 CELL BIOLOGY

American journal of physiology. Cell physiology Pub Date : 2025-07-01 Epub Date: 2025-06-16 DOI:10.1152/ajpcell.00066.2025

Wanyi Li, Lingling Gan, Wenting Zang, Yan Chen, Bei Xu

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引用次数: 0

Abstract

Rac-GTPase-activating protein 1 (RACGAP1) is a member of the Rho GTPase-activating protein (GAP) family, which is involved in the process of cytokinesis. But its precise function in clear cell renal cell carcinoma (ccRCC) has not been extensively investigated. In this study, we found that RACGAP1 was regulated by centrosomal protein CEP55 and markedly facilitated the growth and progression of ccRCC in vitro and in vivo. In addition, RACGAP1 knockdown induces G1 phase arrest, resulting in mitotic disorder and subsequent apoptosis. These findings indicated that RACGAP1, a cell cycle-related gene, is crucial for the survival and growth of ccRCC. Furthermore, renal cancer is closely associated with metabolic processes. As demonstrated by our serum-targeted metabolomics study, RACGAP1 dysfunction altered the levels of multiple amino acids/amino acid derivatives, acylcarnitines, fatty acids/acyls, nucleotides, and their metabolites. Spatial metabolomics data further confirmed that downregulation of RACGAP1 expression could inhibit ccRCC growth not only by reprogramming fatty acid and nucleotide metabolism but also by interfering with lipid metabolism. More importantly, we detected higher levels of glutamine, acylcarnitines, and lipids in the tumor margin region, suggesting intratumor metabolic heterogeneity in ccRCC. In conclusion, this study elucidated the biological function of RACGAP1 in promoting ccRCC progression and revealed the regulatory mechanism of RACGAP1 in interfering with metabolic pathways from the perspective of multidimensional metabolomics. These findings will provide new targets and a theoretical basis for the treatment of RCC.NEW & NOTEWORTHY We have demonstrated for the first time that CEP55 directly regulated RACGAP1 expression, and downregulation of RACGAP1 blocked ccRCC mitotic division at the G1 phase and induced apoptosis. Targeted and spatial metabolomics analyses showed that RACGAP1 disruption altered levels of multiple metabolites and inhibited ccRCC growth by reprogramming fatty acid, nucleotide, and lipid metabolism. Importantly, spatial imaging of metabolites uncovered intratumor metabolic heterogeneity in ccRCC, providing novel insights into the metabolic landscape of this malignancy.

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racgap1介导的透明细胞肾细胞癌生长和进展的生物学和代谢组学见解。

rac - gtase - activation protein 1 （RACGAP1）是Rho gtase -activating protein （GAP）家族成员，参与细胞分裂过程。但其在透明细胞肾细胞癌（ccRCC）中的确切作用尚未得到广泛研究。在本研究中，我们发现RACGAP1受中心体蛋白CEP55的调控，在体外和体内均显著促进ccRCC的生长和进展。此外，RACGAP1敲低诱导G1期阻滞，导致有丝分裂障碍和随后的细胞凋亡。这些发现表明，细胞周期相关基因RACGAP1对ccRCC的存活和生长至关重要。此外，肾癌与代谢过程密切相关。我们的血清靶向代谢组学研究表明，RACGAP1功能障碍改变了多种氨基酸/氨基酸衍生物、酰基肉碱、脂肪酸/酰基、核苷酸及其代谢物的水平。空间代谢组学数据进一步证实，下调RACGAP1表达不仅可以通过重编程脂肪酸和核苷酸代谢，还可以通过干扰脂质代谢来抑制ccRCC的生长。更重要的是，我们在肿瘤边缘区域检测到较高水平的谷氨酰胺、酰基肉碱和脂质，提示ccRCC肿瘤内代谢异质性。综上所述，本研究阐明了RACGAP1在促进ccRCC进展中的生物学功能，并从多维代谢组学角度揭示了RACGAP1干扰代谢通路的调控机制。这些发现将为RCC的治疗提供新的靶点和理论基础。

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来源期刊

American journal of physiology. Cell physiology 生物-生理学

CiteScore

9.10

自引率

1.80%

发文量

252

审稿时长

1 months

期刊介绍： The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.