Melatonin alleviates heat stress-induced testicular damage in dairy goats by inhibiting the PI3K/AKT signaling pathway

Yundie Liu, Hui Cai, Xinrui Guo, Aili Aierken, Jinlian Hua, Baohua Ma, Sha Peng

Stress Biology ›› 2022, Vol. 2 ›› Issue (1) : 47. DOI: 10.1007/s44154-022-00068-9
Original Paper

Melatonin alleviates heat stress-induced testicular damage in dairy goats by inhibiting the PI3K/AKT signaling pathway

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Abstract

Current measures mainly focus on how melatonin reduces physiological heat stress in animals, but its effects on reproductive damage to male dairy goats have been neglected. This study aimed to determine the protective effect of melatonin on male reproduction during heat stress in dairy goats and to further explore its mechanisms. A natural heat stress model of Saanen dairy goats was used to assess testicular tissue damage 7 days after heat stress and to examine semen quality changes during a spermatogenic cycle. RNA-seq, Western blot, RT–qPCR, and immunofluorescence staining were used to explore the mechanism by which melatonin protects against heat stress-induced reproductive damage and to validate the results. The data suggested that melatonin significantly alleviated the heat stress-induced decrease in sperm quality, protected varicose tubule structure, reduced the levels of heat shock proteins and apoptotic proteins and protected the spermatocytes and round spermatozoa, which are mainly affected by heat stress. RNA-seq results suggest that melatonin inhibits the PI3K/AKT signaling pathway, reduces the level of p-AKT, and promotes elevated BCL-2. In addition, melatonin treatment could upregulate the gene expression of MT2 which was downregulated by heat stress and improve the change in extracellular matrix components and restore serum testosterone levels. Our results suggest that melatonin can protect against testicular and spermatogenic cell damage and improve semen quality in male dairy goats under heat stress. This study provides an important reference for subsequent studies on the molecular mechanisms of melatonin in protecting male reproductive processes under heat stress and using exogenous melatonin to prevent heat stress.

Keywords

Natural heat stress / Melatonin / PI3K/AKT signaling pathway / Spermatocytes / Apoptosis

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Yundie Liu, Hui Cai, Xinrui Guo, Aili Aierken, Jinlian Hua, Baohua Ma, Sha Peng. Melatonin alleviates heat stress-induced testicular damage in dairy goats by inhibiting the PI3K/AKT signaling pathway. Stress Biology, 2022, 2(1): 47 https://doi.org/10.1007/s44154-022-00068-9

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]
AridasJ, YawnoT, SutherlandAE, NitsosI, DitchfieldM, WongFY, HuntRW, FaheyMC, MalhotraA, WallaceEM, JenkinG, MillerSL. Systemic and transdermal melatonin administration prevents neuropathology in response to perinatal asphyxia in newborn lambs. J Pineal Res, 2018, 64(4):e12479
CrossRef Google scholar
[2]
BaekelandtS, MandikiS, KestemontP. Are cortisol and melatonin involved in the immune modulation by the light environment in pike perch Sander lucioperca?. J Pineal Res, 2019, 67(1):e12573
CrossRef Google scholar
[3]
BarchasJ, DaCostaF, SpectorS. Acute pharmacology of melatonin. Nature, 1967, 214(5091):919-920
CrossRef Google scholar
[4]
ChakrabortyS, SinghM, PanditaRK, SinghV, LoC, LeonardF, HorikoshiN, MorosEG, GuhaD, HuntCR, ChauE, AhmedKM, SethiP, CharakaV, GodinB, MakhijaniK, ScherthanH, DeckJ, HausmannM, MushtaqA, PanditaTK. Heat-induced SIRT1-mediated H4K16ac deacetylation impairs resection and SMARCAD1 recruitment to double strand breaks. iScience, 2022, 25(4):104142
CrossRef Google scholar
[5]
ChangKF, HuangXF, ChangJT, HuangYC, WengJC, TsaiNM. Cedrol suppresses glioblastoma progression by triggering DNA damage and blocking nuclear translocation of the androgen receptor. Cancer Lett, 2020, 495: 180-190
CrossRef Google scholar
[6]
ChenR, TsaiJ, ThompsonPA, ChenY, XiongP, LiuC, BurrowsF, SivinaM, BurgerJA, KeatingMJ, WierdaWG, PlunkettW. The multi-kinase inhibitor TG02 induces apoptosis and blocks B-cell receptor signaling in chronic lymphocytic leukemia through dual mechanisms of action. Blood Cancer J, 2021, 11(3):57
CrossRef Google scholar
[7]
ChesneauD, GuillaumeD, ChemineauP, MalpauxB. Continuous light after 2 months of long days stimulates ram testis volume and increases fertility in spring. Animal: an international journal of animal bioscience, 2017, 11(7):1189-1195
CrossRef Google scholar
[8]
Cuevas-Navarro A, Van R, Cheng A, Urisman A, Castel P, McCormick F (2021) The RAS GTPase RIT1 compromises mitotic fidelity through spindle assembly checkpoint suppression. Current biology: CB 31(17): 3915–3924.e9. https://doi.org/10.1016/j.cub.2021.06.030
[9]
Datta S, Cano M, Satyanarayana G, Liu T, Wang L, Wang J, Cheng J, Itoh K, Sharma A, Bhutto I, Kannan R, Qian J, Sinha D, Handa JT (2022) Mitophagy initiates retrograde mitochondrial-nuclear signaling to guide retinal pigment cell heterogeneity. Autophagy 1-18. Advance online publication. https://doi.org/10.1080/15548627.2022.2109286
[10]
ErmolaevaMA, SegrefA, DakhovnikA, OuHL, SchneiderJI, UtermöhlenO, HoppeT, SchumacherB. DNA damage in germ cells induces an innate immune response that triggers systemic stress resistance. Nature, 2013, 501(7467):416-420
CrossRef Google scholar
[11]
Fernández-AlegreE, LacalleE, Soriano-ÚbedaC, González-MontañaJR, DomínguezJC, CasaoA, Martínez-PastorF. Bos taurus and Cervus elaphus as non-seasonal/seasonal models for the role of melatonin receptors in the spermatozoon. Int J Mol Sci, 2022, 23(11):6284
CrossRef Google scholar
[12]
GuoH, OuyangY, WangJ, CuiH, DengH, ZhongX, JianZ, LiuH, FangJ, ZuoZ, WangX, ZhaoL, GengY, OuyangP, TangH. Cu-induced spermatogenesis disease is related to oxidative stress-mediated germ cell apoptosis and DNA damage. J Hazard Mater, 2021, 416: 125903
CrossRef Google scholar
[13]
Handa RJ, Sheng JA, Castellanos EA, Templeton HN, McGivern RF (2022) Sex differences in acute neuroendocrine responses to stressors in rodents and humans. Cold Spring Harb Perspect Biol. https://doi.org/10.1101/cshperspect.a039081
[14]
HuangY, ZhouJH, ZhangH, Canfran-DuqueA, SinghAK, PerryRJ, ShulmanGI, Fernandez-HernandoC, MinW. Brown adipose TRX2 deficiency activates mtDNA-NLRP3 to impair thermogenesis and protect against diet-induced insulin resistance. J Clin Invest, 2022, 132(9):e148852
CrossRef Google scholar
[15]
HwangSJ, JungY, SongYS, ParkS, ParkY, LeeHJ. Enhanced anti-angiogenic activity of novel melatonin-like agents. J Pineal Res, 2021, 71(1):e12739
CrossRef Google scholar
[16]
JanjetovicZ, JarrettSG, LeeEF, DupreyC, ReiterRJ, SlominskiAT. Melatonin and its metabolites protect human melanocytes against UVB-induced damage: involvement of NRF2-mediated pathways. Sci Rep, 2017, 7(1):1274
CrossRef Google scholar
[17]
JanjetovicZ, NahmiasZP, HannaS, JarrettSG, KimTK, ReiterRJ, SlominskiAT. Melatonin and its metabolites ameliorate ultraviolet B-induced damage in human epidermal keratinocytes. J Pineal Res, 2014, 57(1):90-102
CrossRef Google scholar
[18]
JauhariA, BaranovSV, SuofuY, KimJ, SinghT, YablonskaS, LiF, WangX, OberlyP, MinnighMB, PoloyacSM, CarlisleDL, FriedlanderRM. Melatonin inhibits cytosolic mitochondrial DNA-induced neuroinflammatory signaling in accelerated aging and neurodegeneration. J Clin Invest, 2020, 130(6):3124-3136
CrossRef Google scholar
[19]
JiYL, WangH, MengC, ZhaoXF, ZhangC, ZhangY, ZhaoM, ChenYH, MengXH, XuDX. Melatonin alleviates cadmium-induced cellular stress and germ cell apoptosis in testes. J Pineal Res, 2012, 52(1):71-79
CrossRef Google scholar
[20]
Li L, Dutra A, Pak E, Labrie JE, 3rd Gerstein RM, Pandolfi PP, Recht LD, Ross AH (2009) EGFRvIII expression and PTEN loss synergistically induce chromosomal instability and glial tumors. Neuro-oncology 11(1):9–21. https://doi.org/10.1215/15228517-2008-081
[21]
LiY, ZhangZ, HeC, ZhuK, XuZ, MaT, TaoJ, LiuG. Melatonin protects porcine oocyte in vitro maturation from heat stress. J Pineal Res, 2015, 59(3):365-375
CrossRef Google scholar
[22]
NeyGM, YangKB, NgV, LiuL, ZhaoM, KukW, AlakaL, SampangL, RossA, JonesMA, JinX, McKayLM, EvartsH, LiQ. Oncogenic N-Ras Mitigates Oxidative Stress-Induced Apoptosis of Hematopoietic Stem Cells. Cancer research, 2021, 81(5):1240-1251
CrossRef Google scholar
[23]
PoolKR, RickardJP, de GraafSP. Melatonin improves the motility and DNA integrity of frozen-thawed ram spermatozoa likely via suppression of mitochondrial superoxide production. Domest Anim Endocrinol, 2021, 74: 106516
CrossRef Google scholar
[24]
PoolKR, RickardJP, PiniT, de GraafSP. Exogenous melatonin advances the ram breeding season and increases testicular function. Sci Rep, 2020, 10(1):9711
CrossRef Google scholar
[25]
QuillinanNP, McIntoshD, VernesJ, HaqS, DentonCP. Treatment of diffuse systemic sclerosis with hyperimmune caprine serum (AIMSPRO): a phase II double-blind placebo-controlled trial. Ann Rheum Dis, 2014, 73(1):56-61
CrossRef Google scholar
[26]
RavagnoloO, MisztalI, HoogenboomG. Genetic Component of Heat Stress in Dairy Cattle, Development of Heat Index Function. J Dairy Sci, 2000, 83(9):2120-2125
CrossRef Google scholar
[27]
ReiterRJ, CalvoJR, KarbownikM, QiW, TanDX. Melatonin and its relation to the immune system and inflammation. Ann N Y Acad Sci, 2000, 917: 376-386
CrossRef Google scholar
[28]
SehgalA, IrvineKM, HumeDA. Functions of macrophage colony-stimulating factor (CSF1) in development, homeostasis, and tissue repair. Semin Immunol, 2021, 54: 101509
CrossRef Google scholar
[29]
SevillaA, ChéretJ, SlominskiRM, SlominskiAT, PausR. Revisiting the role of melatonin in human melanocyte physiology: a skin context perspective. J Pineal Res, 2022, 72(3):e12790
CrossRef Google scholar
[30]
ShiP, LiaoK, XuJ, WangY, XuS, YanX. Eicosapentaenoic acid mitigates palmitic acid-induced heat shock response, inflammation and repair processes in fish intestine. Fish Shellfish Immunol, 2022, 124: 362-371
CrossRef Google scholar
[31]
SomasekharanSP, SaxenaN, ZhangF, BeraldiE, HuangJN, GentleC, FazliL, ThiM, SorensenPH, GleaveM. Regulation of AR mRNA translation in response to acute AR pathway inhibition. Nucleic Acids Res, 2022, 50(2):1069-1091
CrossRef Google scholar
[32]
SuofuY, LiW, Jean-AlphonseFG, JiaJ, KhattarNK, LiJ, BaranovSV, LeronniD, MihalikAC, HeY, CeconE, WehbiVL, KimJ, HeathBE, BaranovaOV, WangX, GableMJ, KretzES, Di BenedettoG, LezonTR, FriedlanderRM. Dual role of mitochondria in producing melatonin and driving GPCR signaling to block cytochrome c release. Proc Natl Acad Sci U S A, 2017, 114(38):E7997-E8006
CrossRef Google scholar
[33]
SwainN, SamantaL, AgarwalA, KumarS, DixitA, GopalanB, DurairajanayagamD, SharmaR, PushparajPN, BaskaranS. Aberrant Upregulation of compensatory redox molecular machines may contribute to sperm dysfunction in infertile men with unilateral Varicocele: a proteomic insight. Antioxid Redox Signal, 2020, 32(8):504-521
CrossRef Google scholar
[34]
TanDX, HardelandR. Targeting host defense system and rescuing compromised mitochondria to increase tolerance against pathogens by melatonin may impact outcome of deadly virus infection pertinent to COVID-19. Molecules, 2020, 25(19):4410
CrossRef Google scholar
[35]
TanDX, ManchesterLC, QinL, ReiterRJ. Melatonin: a mitochondrial targeting molecule involving mitochondrial protection and dynamics. Int J Mol Sci, 2016, 17(12):2124
CrossRef Google scholar
[36]
TaoW, WangN, RuanJ, ChengX, FanL, ZhangP, LuC, HuY, CheC, SunD, DuanJ, ZhaoM. Enhanced ROS-boosted phototherapy against pancreatic Cancer via Nrf2-mediated stress-defense pathway suppression and Ferroptosis induction. ACS Appl Mater Interfaces, 2022, 14(5):6404-6416
CrossRef Google scholar
[37]
TenzerA, ZinggD, RochaS, HemmingsB, FabbroD, GlanzmannC, SchubigerPA, BodisS, PruschyM. The phosphatidylinositide 3'-kinase/Akt survival pathway is a target for the anticancer and radiosensitizing agent PKC412, an inhibitor of protein kinase C. Cancer Res, 2001, 61(22):8203-8210
[38]
ThorntonP, NelsonG, MayberryD, HerreroM. Increases in extreme heat stress in domesticated livestock species during the twenty-first century. Glob Chang Biol, 2021, 27(22):5762-5772
CrossRef Google scholar
[39]
VenegasC, GarcíaJA, EscamesG, OrtizF, LópezA, DoerrierC, García-CorzoL, LópezLC, ReiterRJ, Acuña-CastroviejoD. Extrapineal melatonin: analysis of its subcellular distribution and daily fluctuations. J Pineal Res, 2012, 52(2):217-227
CrossRef Google scholar
[40]
WangRS, YehS, TzengCR, ChangC. Androgen receptor roles in spermatogenesis and fertility: lessons from testicular cell-specific androgen receptor knockout mice. Endocr Rev, 2009, 30(2):119-132
CrossRef Google scholar
[41]
WangSF, ChangYL, TzengYD, WuCL, WangYZ, TsengLM, ChenS, LeeHC. Mitochondrial stress adaptation promotes resistance to aromatase inhibitor in human breast cancer cells via ROS/calcium up-regulated amphiregulin-estrogen receptor loop signaling. Cancer Lett, 2021, 523: 82-99
CrossRef Google scholar
[42]
Wang X, Li X, Li L, Yang X, Wang J, Liu X, Chen J, Liu S, Zhang N, Li J, Wang H (2022) Hawthorn fruit extract ameliorates H2O2-induced oxidative damage in neuronal PC12 cells and prolongs the lifespan of Caenorhabditis elegans via the IIS signaling pathway. Food Funct. https://doi.org/10.1039/d2fo01657e
[43]
YangCH, WuZY, LiY, ZhangW. Effect of melatonin administration to lactating cashmere goats on milk production of dams and hair follicle development in their offspring. Animal, 2020, 14(6):1241-1248
CrossRef Google scholar
[44]
YangCH, XuJH, RenQC, DuanT, MoF, ZhangW. Melatonin promotes secondary hair follicle development of early postnatal cashmere goat and improves cashmere quantity and quality by enhancing antioxidant capacity and suppressing apoptosis. J Pineal Res, 2019, 67(1):e12569
CrossRef Google scholar
[45]
YangX, ZhaoT, FengL, ShiY, JiangJ, LiangS, SunB, XuQ, DuanJ, SunZ. PM2.5-induced ADRB2 hypermethylation contributed to cardiac dysfunction through cardiomyocytes apoptosis via PI3K/Akt pathway. Environ Int, 2019, 127: 601-614
CrossRef Google scholar
[46]
Yu JC, Lu JZ, Cui XY, Guo L, Wang ZJ, Liu YD, Wang F, Qi MF, Liu YF, Li TL (2022) Melatonin mediates reactive oxygen species homeostasis via SlCV to regulate leaf senescence in tomato plants. J Pineal Res. https://doi.org/10.1111/jpi.12810
[47]
ZhouJ, LiXY, LiuYJ, FengJ, WuY, ShenHM, LuGD. Full-coverage regulations of autophagy by ROS: from induction to maturation. Autophagy, 2022, 18(6):1240-1255
CrossRef Google scholar
[48]
ZhouY, MengT, WuL, DuanY, LiG, ShiC, ZhangH, PengZ, FanC, MaJ, XiongC, BaoW, LiuY. Association between ambient temperature and semen quality: a longitudinal study of 10 802 men in China. Environ Int, 2020, 135: 105364
CrossRef Google scholar
[49]
ZhuH, ChanKT, HuangX, CerraC, BlakeS, TrigosAS, AndersonD, CreekDJ, De SouzaDP, WangX, FuC, JanaM, SanijE, PearsonRB, KangJ. Cystathionine-β-synthase is essential for AKT-induced senescence and suppresses the development of gastric cancers with PI3K/AKT activation. eLife, 2022, 11: e71929
CrossRef Google scholar
Funding
natural sciences foundation of China(32072815); technology innovation leading program of Shaanxi province(2020QFY10); program of Shaanxi province science and technology innovation team(2019TD-036); Fundamental Research Funds for the Central Universities(2452020157); Northwest A&F University

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