Your search keyword '"Liu Haohao"' showing total 8 results

1. Co-exposure of microcystin and nitrite enhanced spermatogenic disorders: The role of mtROS-mediated pyroptosis and apoptosis.

Author

Liu, Haohao, Du, Xingde, Zhang, Zongxin, Ge, Kangfeng, Chen, Xinghai, Losiewicz, Michael D., Guo, Hongxiang, and Zhang, Huizhen

Subjects

*SERTOLI cells, *PYROPTOSIS, *SPERMATOGENESIS, *GERM cells, *GENITALIA, *APOPTOSIS, *CELL death, *OXIDATIVE stress, *SPERMATOZOA

Abstract

[Display omitted] • Co-exposure of MC-LR and NaNO 2 exacerbates reproductive system oxidative damage. • MC-LR and NaNO 2 have synergistic effect on the reduction of sperm density in mice. • MC-LR and NaNO 2 induce apoptosis and pyroptosis via mtROS. • MC-LR and NaNO 2 induced spermatogenic disorders though cell apoptosis and pyroptosis. Microcystins (MCs) and nitrites are coexisted in the environment and have reproductive toxicity. The combined toxic effect and mechanism of MCs and nitrite on spermatogenesis remain largely unclear. In the present study, co-exposure to microcystin-leucine arginine (MC-LR) and sodium nitrite (NaNO 2) aggravated testicular damage of Balb/c mice and mitochondrial impairment of spermatogonia, Sertoli cells, and sperm. Furthermore, MC-LR and NaNO 2 reduced sperm density with a synergistic effect. In addition, MC-LR and NaNO 2 synergistically induced oxidative stress in the reproductive system by decreasing superoxide dismutase (SOD) activity and glutathione (GSH) levels and increasing levels of mitochondrial reactive oxygen species (mtROS) and reactive oxygen species (ROS). More importantly, mitoquidone mesylate (MitoQ), an inhibitor of mtROS, blocked MC-LR and NaNO 2 -induced spermatogonia and Sertoli cell apoptosis by inhibiting high expression of Bax, Fadd, Caspase-8, and cleaved-Caspase-3. On the other hand, MitoQ suppressed pyroptosis of Sertoli cells by inhibiting the expression of NLRP3, N-GSDMD, and cleaved-Caspase-1. Additionally, MitoQ alleviated co-exposure-induced sperm density reduction and organ index disorders in F1 generation mice. Together, co-exposure of MC-LR and NaNO 2 can enhance spermatogenic disorders by mitochondrial oxidative impairment-mediated germ cell death. This study emphasizes the potential risks of MC-LR and NaNO 2 on reproduction in realistic environments and highlights new insights into the cause and treatment of spermatogenic disorders. [ABSTRACT FROM AUTHOR]

Published

2024

2. Long-term exposure to low concentrations of MC-LR induces blood-testis barrier damage through the RhoA/ROCK pathway.

Author

Liu, Haohao, Zeng, Xin, Ma, Ya, Chen, Xinghai, Losiewicz, Michael D., Du, Xingde, Tian, Zhihui, Zhang, Shiyu, Shi, Linjia, Zhang, Huizhen, and Yang, Fei

Subjects

EMERGING contaminants, ADHERENS junctions, CYTOSKELETAL proteins, TIGHT junctions, CYANOBACTERIAL toxins, LABORATORY mice, CYTOSKELETON

Abstract

Microcystin-leucine arginine (MC-LR), an emerging water pollutant, produced by cyanobacteria, has an acute testicular toxicity. However, little is known about the chronic toxic effects of MC-LR exposure on the testis at environmental concentrations and the underlying molecular mechanisms. In this study, C57BL/6 J mice were exposed to different low concentrations of MC-LR for 6, 9 and 12 months. The results showed that MC-LR could cause testis structure loss, cell abscission and blood-testis barrier (BTB) damage. Long-term exposure of MC-LR also activated RhoA/ROCK pathway, which was accompanied by the rearrangement of α-Tubulin. Furthermore, MC-LR reduced the levels of the adherens junction proteins (N-cadherin and β-catenin) and the tight junction proteins (ZO-1 and Occludin) in a dose- and time-dependent way, causing BTB damage. MC-LR also reduced the expressions of Occludin, ZO-1, β-catenin, and N-cadherin in TM4 cells, accompanied by a disruption of cytoskeletal proteins. More importantly, the RhoA inhibitor Rhosin ameliorated these MC-LR-induced changes. Together, these new findings suggest that long-term exposure to MC-LR induces BTB damage through RhoA/ROCK activation: involvement of tight junction and adherens junction changes and cytoskeleton disruption. This study highlights a new mechanism for MC-LR-induced BTB disruption and provides new insights into the cause and treatment of BTB disruption. [Display omitted] • This study evaluates the chronic reproductive toxicity of microcystin-leucine arginine (MC-LR). • MC-LR causes blood-testis barrier (BTB) disruption by RhoA/ROCK. • MC-LR induces BTB disruption by adherens junction and tight junction disruption. • MC-LR caused-cytoskeletal rearrangement contributes to BTB disruption. • MC-LR has not only a dose effect but also a time effect on testicular toxicity. [ABSTRACT FROM AUTHOR]

Published

2022

3. The activated ATM/p53 pathway promotes autophagy in response to oxidative stress-mediated DNA damage induced by Microcystin-LR in male germ cells.

Author

Tian, Zhihui, Liu, Haohao, Chen, Xinghai, Losiewicz, Michael D., Wang, Rui, Du, Xingde, Wang, Bingqian, Ma, Ya, Zhang, Shiyu, Shi, Linjia, Guo, Xing, Wang, Yongshui, Zhang, Bingyu, Yuan, Shumeng, Zeng, Xin, and Zhang, Huizhen

Subjects

DNA damage, AUTOPHAGY, MALE reproductive health, CELLULAR signal transduction, HYDROXYL group, CYANOBACTERIAL toxins, P53 protein, GERM cells

Abstract

Microcystin-LR (MC-LR) is an intracellular toxin with multi-organ toxicity and the testis is one of its important target organs. Although there is increasing research on MC-LR in male reproductive toxicity, the association between DNA damage and autophagy induced by MC-LR in male germ cells are still unclear. Therefore, it is important to explore the mechanism of MC-LR-induced DNA damage and the role of the activated ATM/p53 signaling pathway in testicular toxicity. The present study showed that MC-LR exposure significantly reduced gonadal index and induced pathological damage of the testes in mice. In addition, MC-LR increased the oxidative stress-related indicator hydroxyl radical, accompanied by increased levels of DNA damage-related indicators gamma-H2AX, 8-hydroxy-2′-deoxyguanosine, the olive tail moment (OTM) and DNA content of comet tail (TailDNA%) in trailing cells. Moreover, MC-LR activated the ATM/p53 pathway by enhancing the phosphorylation levels of ATM, CHK2 and p53 proteins, and then led to cell autophagy, ultimately triggering disrupted testicular cell arrangement, reduced sperm count and spermatogenic cell shedding. Importantly, after pretreatment with the antioxidant NAC, the expression levels of DNA damage-related indicators and the extent of damage in male germ cells were significantly reduced. Furthermore, pretreatment with the ATM inhibitor KU55933 could reduce the occurrence of autophagy and mitigate testicular toxicity of MC-LR through inhibiting the activation of the ATM/p53 pathway. These results indicate that MC-LR-induced oxidative stress can activate the DNA damage-mediated ATM/p53 signalling pathway to induce autophagy in male germ cells. This study provides a novel insight to further clarify the reproductive toxicity caused by MC-LR and to protect male reproductive health. [Display omitted] • MC-LR induces DNA damage in male germ cells. • The ATM/p53 pathway mediated by DNA damage promotes autophagy. • The oxidative stress is involved in MC-LR-induced DNA damage. [ABSTRACT FROM AUTHOR]

Published

2021

4. Microcystin-LR induces ovarian injury and apoptosis in mice via activating apoptosis signal-regulating kinase 1-mediated P38/JNK pathway.

Author

Du, Xingde, Liu, Haohao, Liu, Xiaohui, Chen, Xinghai, Yuan, Le, Ma, Ya, Huang, Hui, Wang, Yueqin, Wang, Rui, Zhang, Shiyu, Tian, Zhihui, Shi, Linjia, and Zhang, Huizhen

Subjects

APOPTOSIS, LABORATORY mice, GRANULOSA cells, MITOCHONDRIAL membranes, MEMBRANE potential

Abstract

As an emerging pollutant in the aquatic environment, microcystin-LR (MC-LR) can enter the body through multiple pathways, and then induce apoptosis and gonadal damage, affecting reproductive function. Previous studies focused on male reproductive toxicity induced by MC-LR neglecting its effects on females. The apoptotic signal-regulated kinase 1 (ASK1) is an upstream protein of P38/JNK pathway, closely associated with apoptosis and organ damage. However, the role of ASK1 in MC-LR-induced reproductive toxicity is unclear. Therefore, this study investigated the role of ASK1 in mouse ovarian injury and apoptosis induced by MC-LR. After MC-LR exposure, ASK1 expression in mouse ovarian granulosa cells was increased at the protein and mRNA levels, and decreased following pretreatment by antioxidant N-acetylcysteine, suggesting that MC-LR-induced oxidative stress has a regulatory role in ASK1 expression. Inhibition of ASK1 expression with siASK1 and NQDI-1 could effectively alleviate MC-LR-induced mitochondrial membrane potential damage and apoptosis in ovarian granulosa cells, as well as pathological damage, apoptosis and the decreased gonadal index in ovaries of C57BL/6 mice. Moreover, the P38/JNK pathway and downstream apoptosis-related proteins (P-P38, P-JNK, P-P53, Fas) and genes (MKK4 , MKK3 , Ddit3 , Mef2c) were activated in vivo and vitro , but their activation was restrained after ASK1 inhibition. Data presented herein suggest that the ASK1-mediated P38/JNK pathway is involved in ovarian injury and apoptosis induced by MC-LR in mice. It is confirmed that ASK1 has an important role in MC-LR-induced ovarian injury, which provides new insights for preventing MCs-induced reproductive toxicity in females. [Display omitted] • MC-LR upregulates ASK1 expression via oxidative stress in mouse ovarian cells. • Inhibition of ASK1 alleviates MC-LR-induced ovarian injury and apoptosis in mice. • ASK1-mediated P38/JNK pathway is involved in MC-LR-induced ovarian injury and apoptosis. • ASK1 activates the P38/JNK pathway via MKK3/4 after ovarian cells exposed to MC-LR. [ABSTRACT FROM AUTHOR]

Published

2021

5. Microcystin-leucine arginine exposure contributes to apoptosis and follicular atresia in mice ovaries by endoplasmic reticulum stress-upregulated Ddit3.

Author

Liu, Haohao, Tian, Zhihui, Guo, Yaxin, Liu, Xiaohui, Ma, Ya, Du, Xingde, Wang, Rui, Zhang, Shiyu, Shi, Linjia, Guo, Hongxiang, and Zhang, Huizhen

Abstract

Microcystin-leucine arginine (MC-LR), an intracellular toxin to cause reproduction toxicity, is produced by blooming cyanobacteria and widely distributed in eutrophic waters. It is revealed that MC-LR-induced female reproductive toxicity is more severe than male reproductive toxicity. Previous studies mainly focused on male reproductive toxicity, and the molecular mechanisms of MC-LR-induced apoptosis, follicular atresia and infertility in female remain largely unclear. Here, it was found that MC-LR treatment could induce apoptosis, inflammation, follicular atresia, and decrease of gonadal index in mice ovaries. RNA-Seq data showed that the up-regulation of DNA-damage inducible transcript 3 (Ddit3) under endoplasmic reticulum (ER) stress had predominantly regulatory role in MC-LR-induced apoptotic pathway. Furthermore, MC-LR exposure promoted cleavage of activating transcription factor 6 (ATF6, 50kd), inositol-requiring enzyme 1 (Ire1) expression, phosphorylation of IRE1, mitogen-activated protein kinase 5 (Map3k5) and Ddit3 expression, which was accompanied by the upregulation of death receptor 5 (Dr5) and active-caspase-3, and a decrease in Bcl-2 expression. ER stress inhibitor 4-Phenyl butyric acid (4-PBA) ameliorated these MC-LR-induced changes in protein or mRNA level. More importantly, knockdown of Ddit3 suppressed MC-LR-induced cell apoptosis and follicular atresia by directly regulating Dr5 and Bcl-2. Additionally, it was also found that MC-LR increased Map3k5 phosphorylation by inhibiting protein phosphatase 2A (PP2A) activity, and then promoted Ddit3 expression. In short, our data suggests that Ddit3 promotes MC-LR-induced mice ovarian cells apoptosis and follicular atresia via ER stress activation, which provides a new insight into the relation between infertility in females and the emerging water pollutant MC-LR. Unlabelled Image • MC-LR causes ovarian inflammation and decrease of gonad index. • MC-LR upregulates Ddit3 expression through ER stress and inhibition of PP2A activity. • Ddit3 promotes mouse ovarian cell apoptosis and follicle atresia induced by MC-LR. • Upregulation of Ddit3 accelerates apoptosis through regulating Dr5 and Bcl-2. [ABSTRACT FROM AUTHOR]

Published

2021

6. IRE1 and CaMKKβ pathways to reveal the mechanism involved in microcystin-LR-induced autophagy in mouse ovarian cells.

Author

Ma, Ya, Liu, Haohao, Du, Xingde, Petlulu, Pavankumar, Chen, Xinghai, Wang, Rui, Zhang, Shiyu, Tian, Zhihui, Shi, Linjia, Guo, Hongxiang, and Zhang, Huizhen

Subjects

*EMERGING contaminants, *ENDOPLASMIC reticulum, *FOOD contamination, *CELLS, *CYANOBACTERIAL toxins, *AUTOPHAGY

Abstract

Microcystin-LR (MC-LR) is an emerging water pollutant produced by blooming cyanobacteria. It could be absorbed into human body via contaminated food and drinking water causing severe reproductive toxicity. Previous studies showed that MC-LR could regulate autophagy by inducing endoplasmic reticulum (ER) stress thereby causing female reproductive toxicity. However, the molecular mechanisms of MC-LR-induced autophagy remain to be elucidated. It is known that IRE1 and CaMKKβ pathways are two important pathways involved in autophagy induced by ER stress. Hence, this study investigated the roles of both pathways in MC-LR-induced autophagy in mouse ovarian cells. The results showed that MC-LR significantly up-regulated the expression of autophagy marker proteins LC3Ⅱ and BECLIN1 and down-regulated the expression of P62 in vivo and in vitro. MC-LR-caused increase of autophagosomes could be observed in KK-1 cells by MDC staining. MC-LR induced the formation of autolysosomes as indicated by the overlap of LAMP1 and LC3. Meanwhile, MC-LR significantly activated the proteins in IRE1 pathway (IRE1, XBP1 and JNK) and in CaMKKβ pathway (CaMKKβ, AMPK, mTOR). Furthermore, MC-LR caused weight loss and ovarian histopathological damage in mice. In contrast, after the expression and function of IRE1 and CaMKKβ were inhibited with siRNA in vitro and by inhibitors (4μ8C and STO-609, respectively) in vivo , the up-regulation of LC3Ⅱ and BECLIN1 and the degradation of P62 induced by MC-LR were significantly suppressed. MC-LR-induced autophagosomes in KK-1 cells and autolysosomes in mouse ovarian cells were also decreased. Moreover, the knockdown of IRE1 and CaMKKβ relieved MC-LR-induced histopathological injury to mouse ovaries. These results indicated that MC-LR induced ovarian cell autophagy and ovarian injury via IRE1 and CaMKKβ pathways. This study is the first study revealing the molecular mechanisms of MC-LR-induced autophagy of ovarian cells and providing new insights into the female reproductive toxicity of MC-LR. Image 1 • After absorbed by ovaries, MC-LR can induce autophagy and damage of mouse ovaries. • IRE1 pathway is involved in autophagy and damage of mouse ovaries induced by MC-LR. • CaMKKβ pathway participates in autophagy and damage of mouse ovaries induced by MC-LR. [ABSTRACT FROM AUTHOR]

Published

2021

7. Resveratrol Ameliorates Microcystin-LR-Induced Testis Germ Cell Apoptosis in Rats via SIRT1 Signaling Pathway Activation.

Author

Liu, Haohao, Zhang, Shenshen, Liu, Chuanrui, Wu, Jinxia, Wang, Yueqin, Yuan, Le, Du, Xingde, Wang, Rui, Marwa, Phelisters Wegesa, Zhuang, Donggang, Cheng, Xuemin, and Zhang, Huizhen

Subjects

*RESVERATROL, *MICROCYSTINS, *GERM cells, *APOPTOSIS, *CYANOBACTERIA

Abstract

Microcystin-leucine arginine (MC-LR), a cyclic heptapeptide produced by cyanobacteria, is a strong reproductive toxin. Studies performed in rat Sertoli cells and Chinese hamster ovary cells have demonstrated typical apoptosis after MC-LR exposure. However, little is known on how to protect against the reproductive toxicity induced by MC-LR. The present study aimed to explore the possible molecular mechanism underlying the anti-apoptosis and protective effects of resveratrol (RES) on the co-culture of Sertoli–germ cells and rat testes. The results demonstrated that MC-LR treatment inhibited the proliferation of Sertoli–germ cells and induced apoptosis. Furthermore, sirtuin 1 (SIRT1) and Bcl-2 were inhibited, while p53 and Ku70 acetylation, Bax expression, and cleaved caspase-3 were upregulated by MC-LR. However, RES pretreatment ameliorated MC-LR-induced apoptosis and SIRT1 inhibition, and downregulated the MC-LR-induced increase in p53 and Ku70 acetylation, Bax expression, and caspase-3 activation. In addition, RES reversed the MC-LR-mediated reduction in Ku70 binding to Bax. The present study indicated that the administration of RES could ameliorate MC-LR-induced Sertoli–germ cell apoptosis and protect against reproductive toxicity in rats by stimulating the SIRT1/p53 pathway, suppressing p53 and Ku70 acetylation and enhancing the binding of Ku70 to Bax. [ABSTRACT FROM AUTHOR]

Published

2018

8. The latest advances in the reproductive toxicity of microcystin-LR.

Author

Zhang, Shiyu, Du, Xingde, Liu, Haohao, Losiewic, Michael D., Chen, Xinghai, Ma, Ya, Wang, Rui, Tian, Zhihui, Shi, Linjia, Guo, Hongxiang, and Zhang, Huizhen

Subjects

*EFFECT of environment on animals, *XENOESTROGENS, *GERM cells, *POLLUTANTS, *PHOSPHOPROTEIN phosphatases, *GONADS, *CYANOBACTERIAL toxins

Abstract

Microcystin-LR (MC-LR) is an emerging environmental pollutant produced by cyanobacteria that poses a threat to wild life and human health. In recent years, the reproductive toxicity of MC-LR has gained widespread attention, a large number of toxicological studies have filled the gaps in past research and more molecular mechanisms have been elucidated. Hence, this paper reviews the latest research advances on MC-LR-induced reproductive toxicity. MC-LR can damage the structure and function of the testis, ovary, prostate, placenta and other organs of animals and then reduce their fertility. Meanwhile, MC-LR can also be transmitted through the placenta to the offspring causing trans-generational and developmental toxicity including death, malformation, growth retardation, and organ dysfunction in embryos and juveniles. The mechanisms of MC-LR-induced reproductive toxicity mainly include the inhibition of protein phosphatase 1/2 A (PP1/2 A) activity and the induction of oxidative stress. On the one hand, MC-LR triggers the hyperphosphorylation of certain proteins by inhibiting intracellular PP1/2 A activity, thereby activating multiple signaling pathways that cause inflammation and blood-testis barrier destruction, etc. On the other hand, MC-LR-induced oxidative stress can result in cell programmed death via the mitochondrial and endoplasmic reticulum pathways. It is worth noting that epigenetic modifications are also involved in reproductive cell apoptosis, which may be an important direction for future research. Furthermore, this paper proposes for the first time that MC-LR can produce estrogenic effects in animals as an environmental estrogen. New findings and suggestions in this review could be areas of interest for future research. [ABSTRACT FROM AUTHOR]

Published

2021