Hao Zhou scite author profile

Lactic acid is a “metabolic waste” product of glycolysis that is produced in the body. However, the role of lactic acid in the development of human malignancies has gained increasing interest lately as a multifunctional small molecule chemical. There is evidence that tumor cells may create a large amount of lactic acid through glycolysis even when they have abundant oxygen. Tumor tissues have a higher quantity of lactic acid than normal tissues. Lactic acid is required for tumor development. Lactate is an immunomodulatory chemical that affects both innate and adaptive immune cells’ effector functions. In immune cells, the lactate signaling pathway may potentially serve as a link between metabolism and immunity. Lactate homeostasis is significantly disrupted in the TME. Lactate accumulation results in acidosis, angiogenesis, immunosuppression, and tumor cell proliferation and survival, all of which are deleterious to health. Thus, augmenting anticancer immune responses by lactate metabolism inhibition may modify lactate levels in the tumor microenvironment. This review will evaluate the role of lactic acid in tumor formation, metastasis, prognosis, treatment, and histone modification. Our findings will be of considerable interest to readers, particularly those engaged in the therapeutic treatment of cancer patients. Treatments targeting the inhibition of lactate synthesis and blocking the source of lactate have emerged as a potential new therapeutic option for oncology patients. Additionally, lactic acid levels in the plasma may serve as biomarkers for disease stage and may be beneficial for evaluating therapy effectiveness in individuals with tumors.

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Layer-Structured GaGeTe Compound as a Promising Thermoelectric Material

Zhou

Cheng

Meng

et al. 2023

ACS Appl. Energy Mater.

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Due to the existence of weak chemical bonding for a low lattice thermal conductivity, outstanding thermoelectric performances have been frequently realized in semiconducting compounds with a layered crystal structure along the out-of-plane direction. Layer-structured GaGeTe shows a p-type conduction with a theoretical high carrier mobility, owning a great potential for thermoelectric applications. This work focuses on a comprehensive revelation of thermoelectric properties for GaGeTe, and the layered structure leads the hot-pressed pellets to be textured and thereby results in an anisotropy of transport properties. The single parabolic band (SPB) model with acoustic scattering leads to a reasonable assessment of electrical transport properties and a well understanding of underlying physical parameters along the direction perpendicular to that of a hot press. Benefiting from the weak van der Waals bond for a low sound velocity as well as a low lattice thermal conductivity of ∼0.6 W/m K, a peak zT of ∼0.4 is realized for GaGeTe along the parallel direction. This work not only demonstrates this material as a promising thermoelectric but also guides the further enhancements by microstructure engineering.

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Activation of TRPV4 by lactate as a critical mediator of renal fibrosis in spontaneously hypertensive rats after moderate- and high-intensity exercise

Zhao

Chen

et al. 2022

Front. Physiol.

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Moderate-intensity exercise training has been regarded a healthy way to alleviate kidney fibrosis by the transforming growth factor-beta (TGFβ) signaling pathway. However, the impact of different intensity exercise training on renal function is unknown, and the underlying mechanism is also unclear. The purpose of this study is to explore the effect of lactic acid in different intensity exercise training on renal fibrosis in spontaneous hypertension. Masson’s trichrome staining, immunohistochemistry, lactic acid kit, and Western blotting were applied on the excised renal tissue from six male Wistar–Kyoto rats (WKY) and 18 male spontaneously hypertensive rats (SHR), which were randomly divided into a sedentary hypertensive group (SHR), moderate-intensity exercise hypertensive group (SHR-M), and high-intensity exercise hypertensive group (SHR-H). The results revealed that renal and blood lactic acid, as well as the key fibrotic protein levels of transient receptor potential vanilloid 4 (TRPV4), TGFβ-1, phospho-Smad2/3 (p-Smad2/3), and connective tissue growth factor (CTGF), were significantly decreased in the SHR-M group when compared with the SHR and SHR-H groups. In further in vitro experiments, we selected normal rat kidney interstitial fibroblast (NRK-49F) cells. By immunofluorescence and Western blotting techniques, we found that TRPV4 antagonists (RN-1734) markedly inhibited lactate-induced fibrosis. In conclusion, compared with previous studies, high-intensity exercise training (HIET) can cause adverse effects (renal damage and fibrosis). High concentrations of lactic acid can aggravate renal fibrosis conditions via activating TRPV4-TGFβ1-SMAD2/3-CTGF-mediated renal fibrotic pathways in spontaneous hypertension. This finding might provide new ideas for treating hypertensive nephropathy with different intensity exercise in the future.

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Inhibition of MyD88 attenuates angiotensin II-induced hypertensive kidney disease via regulating renal inflammation

Lin

Luo²,

Yang³

et al. 2022

International Immunopharmacology

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Hao Zhou

Tumor Microenvironment: Lactic Acid Promotes Tumor Development

Layer-Structured GaGeTe Compound as a Promising Thermoelectric Material

Activation of TRPV4 by lactate as a critical mediator of renal fibrosis in spontaneously hypertensive rats after moderate- and high-intensity exercise

Inhibition of MyD88 attenuates angiotensin II-induced hypertensive kidney disease via regulating renal inflammation

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