Hongqiang Yin scite author profile

Autophagy is a cellular pathway involved in degradation of damaged organelles and proteins in order to keep cellular homeostasis. It plays vital role in podocytes. Titanium dioxide nanoparticles (nano-TiO) are known to induce autophagy in cells, but little has been reported about the mechanism of this process in podocytes and the role of autophagy in podocyte death. In the present study, we examined how nano-TiO induced authophagy. Besides that, whether autophagy could protect podocytes from the damage induced by nano-TiO and its mechanism was also investigated. Western blot assay and acridine orange staining presented that nano-TiO significantly enhanced autophagy flux in podocytes. In addition, AMP-activated protein kinase (AMPK) and mammalian target of rapamycin (mTOR) were involved in such process. 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay indicated that upregulated level of autophagy induced by rapamycin in high concentration nano-TiO-treated podocytes could significantly reduce the level of oxidative stress and alleviate podocyte death. Downregulating the level of autophagy with 3-methyladenine had the opposite effects. These findings indicate that nano-TiO induces autophagy through activating AMPK to inhibit mTOR in podocytes, and such autophagy plays a protecting role against oxidative stress on the cell proliferation. Changing autophagy level may become a new treatment strategy to relieve the damage induced by nano-TiO in podocytes.

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Resveratrol Attenuates Aβ-Induced Early Hippocampal Neuron Excitability Impairment via Recovery of Function of Potassium Channels

Yin

Wang

Zhang

et al. 2017

Neurotox Res

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Alzheimer's disease (AD) is an age-related neurodegenerative disease. Amyloid-β (Aβ) is not only the morphological hallmark but also the initiator of the pathology process of AD. As a natural compound found in grapes, resveratrol shows a protective effect on the pathophysiology of AD, but the underlying mechanism is not very clear. This study was to investigate whether resveratrol could attenuate Aβ-induced early impairment in hippocampal neuron excitability and the underlying mechanism. The excitability and voltage-gated potassium currents were examined in rat hippocampal CA1 pyramidal neurons by using whole-cell patch-clamp technique. It was found that Aβ increased the excitability of neurons. Resveratrol could reverse the Aβ-induced increase in the frequency of repetitive firing and the spike half-width of action potential (AP). Moreover, resveratrol can attenuate Aβ-induced decreases in transient potassium channel (I ) and delay rectifier potassium channel (I) of neurons. It was also found that resveratrol could decline the increase of protein kinase A (PKA) and inhibit the activation of PI3K/Akt signaling pathway induced by Aβ. The results suggest that resveratrol alleviates Aβ-induced dysfunction in hippocampal CA1 pyramidal neurons via recovery of the function of I and I by inhibiting the increase of PKA and the activation of PI3K/Akt signaling pathway.

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Angiotensin II induces calcium-mediated autophagy in podocytes through enhancing reactive oxygen species levels

Gao¹,

Wang

Yin

et al. 2017

Chemico-Biological Interactions

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Deletion of asparagine endopeptidase reduces anxiety- and depressive-like behaviors and improves abilities of spatial cognition in mice

Gao

et al. 2018

Brain Research Bulletin

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miR-200 family promotes podocyte differentiation through repression of RSAD2

Yin

Hao

et al. 2016

Sci Rep

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Mature podocytes are highly differentiated cells with several characteristic phenotypic features that are involved in the glomerular filtration function. During kidney development, a series of changes of the morphological characteristics and cellular functions may happen in podocytes. The miR-200 family functions in various biological and pathological processes. But the underlying molecular mechanisms of miR-200 family that functions in podocyte differentiation remain poorly understood. Herein is shown that miR-200a, miR-200b and miR-429 are significantly upregulated during the differentiation of podocytes, with highest upregulation of miR-200a. In these cells, restraint of miR-200 family by RNA interference assay revealed a prominent inhibition of cell differentiation. More intriguingly, miR-200 family directly inhibited the radical S-adenosyl methionine domain-containing protein 2 (RASD2) expression. Moreover, further upregulation of RSAD2 combining with restraint of miR-200 family revealed a promotion of podocyte dedifferentiation and proliferation. In addition, the expression of RSAD2 is consistent with that of in vitro podocyte differentiation in prenatal and postnatal mouse kidney, and significantly down-regulated during the kidney development. Together, these findings indicate that miR-200 family may potentially promote podocyte differentiation through repression of RSAD2 expression. Our data also demonstrate a novel role of the antiviral protein RSAD2 as a regulator in cell differentiation.

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MiR-429/200a/200b negatively regulate Notch1 signaling pathway to suppress CoCl2-induced apoptosis in PC12 cells

Yang

Zhang

Yin

et al. 2020

Toxicology in Vitro

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Leonurine ameliorates cognitive dysfunction via antagonizing excitotoxic glutamate insults and inhibiting autophagy

et al. 2016

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Hongqiang Yin

Autophagy ameliorates cognitive impairment through activation of PVT1 and apoptosis in diabetes mice

Nano-TiO2 induces autophagy to protect against cell death through antioxidative mechanism in podocytes

Resveratrol Attenuates Aβ-Induced Early Hippocampal Neuron Excitability Impairment via Recovery of Function of Potassium Channels

Angiotensin II induces calcium-mediated autophagy in podocytes through enhancing reactive oxygen species levels

Deletion of asparagine endopeptidase reduces anxiety- and depressive-like behaviors and improves abilities of spatial cognition in mice

miR-200 family promotes podocyte differentiation through repression of RSAD2

MiR-429/200a/200b negatively regulate Notch1 signaling pathway to suppress CoCl2-induced apoptosis in PC12 cells

Leonurine ameliorates cognitive dysfunction via antagonizing excitotoxic glutamate insults and inhibiting autophagy

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