piR-hsa-35410通过增强PFKL介导的糖酵解促进三阴性乳腺癌进展。

IF 5.6 2区医学 Q1 PHARMACOLOGY & PHARMACY

Biochemical pharmacology Pub Date : 2025-09-13 DOI:10.1016/j.bcp.2025.117337

Xiufen Zhang , Xue Wang , Jingjing Lu , Linzi Zeng , Bujie Xu , Chaofu Wang , Zhenglin Wang , Ping Zhou

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引用次数: 0

摘要

据报道，piwi相互作用rna （pirna）与各种癌症的发生和进展密切相关。然而，pirna在三阴性乳腺癌（TNBC）（最具侵袭性的乳腺癌亚型）中的作用仍然知之甚少。本研究鉴定出piR-hsa-35410（以下简称piR-35410）异常表达，旨在进一步阐明其在TNBC中的生物学功能和机制。在TNBC中，piR-35410的高表达增强了克隆形成和细胞迁移能力，以及糖酵解活性。机制研究表明，piR-35410与atp依赖性6-磷酸果糖激酶，肝型（PFKL）相互作用，PFKL是糖酵解中至关重要的限速酶，主要结合在包含氨基酸470至780的截断异构体上。piR-35410通过调节磷酸果糖激酶（PFK）酶活性而不影响PFKL的表达，从而增强TNBC的糖酵解能力。此外，我们的研究发现PFKL在TNBC中高表达，进一步增强了糖酵解活性和恶性表型。功能挽救实验证明，piR-35410通过调控pfkl -糖酵解，在体外和体内推动TNBC恶性进展。总之，我们的研究表明，piR-35410通过调节pfkl介导的糖酵解促进TNBC的恶性进展。这些发现为了解piR-35410在TNBC发病机制中的作用提供了有价值的见解，揭示了其作为一种新的治疗靶点的潜力。

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piR-hsa-35410 promotes triple-negative breast cancer progression via enhancing PFKL mediated glycolysis

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piR-hsa-35410 promotes triple-negative breast cancer progression via enhancing PFKL mediated glycolysis

PIWI-interacting RNAs (piRNAs) have been reported to be closely associated with the development and progression of various cancers. However, the role of piRNAs in triple-negative breast cancer (TNBC), the most aggressive subtype of breast cancer, remains poorly understood. This study identified piR-hsa-35410 (hereafter piR-35410) with aberrant expression and aimed to further elucidate its biological functions and mechanisms in TNBC. In TNBC, the elevated expression of piR-35410 enhanced clone formation and cell migration capacities, as well as glycolytic activity. Mechanistic investigations revealed that piR-35410 interacted with ATP-dependent 6-phosphofructokinase, Liver Type (PFKL), a crucial rate-limiting enzyme in glycolysis, and primarily bound to its truncated isoform encompassing amino acids 470 to 780. piR-35410 enhanced glycolytic capacity in TNBC by regulating Phosphofructokinase (PFK) enzyme activity without affecting PFKL expression. Moreover, our study found that PFKL was highly expressed in TNBC, further augmenting glycolytic activity and the malignant phenotype. Functional rescue experiments provided evidence that piR-35410 drove TNBC malignant progression by regulating PFKL-glycolysis in vitro and in vivo. In summary, our study revealed that piR-35410 promotes the malignant progression of TNBC by regulating PFKL-mediated glycolysis. These findings provide valuable insights into the role of piR-35410 in TNBC pathogenesis, revealing its potential as a novel therapeutic target.

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来源期刊

Biochemical pharmacology 医学-药学

CiteScore

10.30

自引率

1.70%

发文量

420

审稿时长

17 days

期刊介绍： Biochemical Pharmacology publishes original research findings, Commentaries and review articles related to the elucidation of cellular and tissue function(s) at the biochemical and molecular levels, the modification of cellular phenotype(s) by genetic, transcriptional/translational or drug/compound-induced modifications, as well as the pharmacodynamics and pharmacokinetics of xenobiotics and drugs, the latter including both small molecules and biologics. The journal''s target audience includes scientists engaged in the identification and study of the mechanisms of action of xenobiotics, biologics and drugs and in the drug discovery and development process. All areas of cellular biology and cellular, tissue/organ and whole animal pharmacology fall within the scope of the journal. Drug classes covered include anti-infectives, anti-inflammatory agents, chemotherapeutics, cardiovascular, endocrinological, immunological, metabolic, neurological and psychiatric drugs, as well as research on drug metabolism and kinetics. While medicinal chemistry is a topic of complimentary interest, manuscripts in this area must contain sufficient biological data to characterize pharmacologically the compounds reported. Submissions describing work focused predominately on chemical synthesis and molecular modeling will not be considered for review. While particular emphasis is placed on reporting the results of molecular and biochemical studies, research involving the use of tissue and animal models of human pathophysiology and toxicology is of interest to the extent that it helps define drug mechanisms of action, safety and efficacy.