LDHA (Lactate dehydrogenase A)

In vivo, RHART significantly suppressed tumor growth and expression of CPSF6, MCT4, PCNA, and PKM2, while enhancing cleaved caspase-3. These findings provide scientific evidence that RHART induces apoptotic and metabolic reprogramming effects in hepatocellular carcinoma by targeting the CPSF6/MCT4/c-Myc signaling axis, underscoring its potential as a novel natural therapeutic candidate for liver cancer.

Clinically, elevated SIN1 expression is associated with adverse pathological features and inferior overall survival. Collectively, these findings link SIN1-mediated recruitment of TTK for LDHA phosphorylation to histone lactylation and GLUT3-driven metabolic reprogramming, and suggest that pharmacological disruption of this axis with LR-90, alone or in combination with standard chemotherapy, may offer a therapeutic strategy for high-glycolytic, high-lactate breast cancer.

In vitro, XAV939 suppressed β-catenin-driven aerobic glycolysis in TNBC cells, downregulating β-catenin and glycolytic proteins, reducing glycolytic activity, and impairing aggressive phenotypes (proliferation, migration, invasion, clonogenicity).ConclusionOverall, our results highlight the crucial role of β-catenin in controlling aerobic glycolysis via regulation of key glycolytic proteins, thereby positively driving the progression and metastasis of TNBCs. Additionally, our data strongly establish that XAV939 effectively inhibits glycolytic phenotype, thereby suggesting its therapeutic potential in TNBC patients.

NAT10-mediated ac4C modification is a critical regulatory node integrating tumor immunity and metabolism, serving as a promising potential target for precision cancer therapy. Current research still faces challenges such as insufficient sensitivity and specificity of ac4C detection technologies, unclearcell-type-specific mechanisms of NAT10, limited delivery efficiency of inhibitors, and the existence of compensatory pathways. Future research should focus on optimizing ac4C detection technologies, clarifying cell-type-specific mechanisms, developing targeted delivery systems, and further exploring the clinical translational value of combining NAT10-targeted therapy with immune checkpoint blockade, so as to provide new strategies and technical support for cancer treatment.

TSZAF mc inhibits ovarian cancer progression by regulating the AKT/ FOXO3A-mediated glycolysis pathway, which may represent one of the mechanisms underlying the clinical efficacy of TSZAF in ovarian cancer treatment.

Therefore, this study revealed that AFP enhances glycolysis by stimulating the activation of the PI3K/AKT/LDHA signaling axis, thereby inducing resistance of HCC cells to lenvatinib. This study provided a new theoretical basis for overcoming lenvatinib resistance by targeting AFP and inhibiting LDHA expression.

RNase R digestion and actinomycin D assays were employed to assess its stability...Animal experiments confirmed that silencing circ_0017521 suppressed tumor growth and glycolysis. This study revealed that hypoxia-induced circ_0017521 activated the PI3K/AKT pathway through the miR-532-3p/PFKFB3 axis, synergistically driving EMT and glycolysis, thereby promoting NSCLC progression.

We identified the H4K8la-NUPR1 axis as a key regulatory pathway that mediates protective autophagy and developed targeted therapeutic strategies to disrupt this pathway. These findings provide novel insights into epigenetic regulation and targeted therapy for GBM.

Pae was found to promote TRIM26 expression, which in turn enhanced TRIM26-mediated ubiquitination and degradation of LDHA, thereby contributing to glycolysis inhibition and suppression of EC progression. These results suggested that Pae might exert its effects by modulating the TRIM26/LDHA axis and supported its potential therapeutic value in EC.

Finally, we propose future research directions regarding the role of lactate in bone diseases. This review highlights lactate as a strategic node that coordinates the bone immune-metabolic network, offering a promising target for the precise regulation of skeletal homeostasis and inflammation.

In vivo, LDHA inhibition (GNE-140) synergised with PD-1 blockade to reduce tumour burden and prolong survival. CTLsTKPI provides a clinically actionable biomarker, and LDHA represents a rational therapeutic target.

This "signal hijacking "paradigm recasts cancer as a battle for communicative control within the ecosystem. We thus propose that reestablishing system-wide signaling homeostasis, rather than pursuing pure cytoreduction, represents a fundamental strategy to overcome therapy resistance.