中国海洋大学水产学院,山东 青岛 266003
齐鑫(1983年生),男;研究方向:鱼类繁殖生理与内分泌;E-mail:qx@ouc.edu.cn
温海深(1963年生),男;研究方向:鱼类繁殖生理、鱼类生殖调控与品种改良;E-mail:wenhaishen@ouc.edu.cn
网络出版日期:2024-09,
收稿日期:2024-06-30,
录用日期:2024-08-14
移动端阅览
齐鑫, 杨欣琳, 温海深. 卵胎生硬骨鱼许氏平鲉繁殖生物学研究进展[J/OL]. 中山大学学报(自然科学版)(中英文), 2024,1-10.
QI Xin, YANG Xinlin, WEN Haishen. Research progress of reproductive biology in ovoviviparous teleost black rockfish (
齐鑫, 杨欣琳, 温海深. 卵胎生硬骨鱼许氏平鲉繁殖生物学研究进展[J/OL]. 中山大学学报(自然科学版)(中英文), 2024,1-10. DOI: 10.13471/j.cnki.acta.snus.ZR20240218.
QI Xin, YANG Xinlin, WEN Haishen. Research progress of reproductive biology in ovoviviparous teleost black rockfish (
卵胎生作为卵生向胎生进化的中间状态,具有子代成活率高的特性。因此,卵胎生许氏平鲉成为我国重要的北方海水养殖对象之一。然而,大量养殖该物种又带来了一些繁殖过程中的实际问题。比如,网箱养殖的亲鱼出现明显的交配失败,导致其子代出生率极低;妊娠期亲鱼母胎器官发育障碍,导致仔鱼胎死腹中;早产、难产导致的亲鱼、仔鱼大量死亡等。本综述将针对上述问题,分别探讨许氏平鲉交配发生、妊娠维持及分娩启动相关的内分泌调控机制,以期为后续研究提供潜在思路,最终实现水产养殖问题的解决。
Ovoviviparity, as an intermediate state in the evolution from oviparity to viviparity, is characterized by high offspring viability. However, mass culture of this species has brought some practical problems in the reproduction process. For example, in cage aquaculture, parent fish often experience significant mating failures, resulting in extremely low birth rates of their offspring. During pregnancy, the development of maternal-fetal organs of parent fish is impaired, resulting in the fetal death of larvae. Premature births and dystocia resulted in significant mortality among parent fish and larvae. This review mainly focused on the endocrine regulation mechanisms and discussed the progress related to mating, pregnancy maintenance, and parturition initiation in black rockfish (
Sebastes schlegelii
), aiming to provide potential ideas for future research and ultimately solve the problems in aquaculture.
卵胎生许氏平鲉繁殖生理
ovoviviparityblack rockfishreproductive physiology
温海深, 2020.卵胎生硬骨鱼类进化机制及繁殖生理特征研究[J]. 大连海洋大学学报, 35(4): 469-480.
姚一甲, 温海深, 吕里康, 等, 2023. GnIH/GnIHR调控卵胎生许氏平鲉交配行为相关基因表达的研究[J]. 水生生物学报, 47(10): 1561-1575.
AAGAARD-TILLERY K M, SILVER R, DALTON J, 2006. Immunology of normal pregnancy[J]. Semin Fetal Neonatal Med, 11(5): 279-295.
ADAR T, GRISARU-GRANOVSKY S, YA’ACOV ABEN, et al, 2015. Pregnancy and the immune system: General overview and the gastroenterological perspective[J]. Dig Dis Sci, 60(9): 2581-2589.
AGHAEEPOUR N, GANIO E A, MCILWAIN D, et al, 2017. An immune clock of human pregnancy[J]. Sci Immunol, 2(15): eaan2946.
ALIJOTAS-REIG J, LLURBA E, GRIS J M, 2014. Potentiating maternal immune tolerance in pregnancy: A new challenging role for regulatory T cells[J]. Placenta, 35(4): 241-248.
ALTO L T, TERMAN J R, 2017. Semaphorins and their signaling mechanisms[J]. Methods Mol Biol, 1493: 1-25.
ANGELINI F, GHIARA G, 1984. Reproductive modes and strategies in vertebrate evolution[J]. Bolletino Di Zool, 51(1/2): 121-203.
BALON E K, 1975. Reproductive guilds of fishes: A proposal and definition[J]. J Fish Res Bd Can, 32(6): 821-864.
BARLOW G W, 1983. Fishes: An introduction to ichthyology (Peter B): Moyle[J]. Q Rev Biol, 58(2): 273.
BLACKBURN D G, 1999. Viviparity and oviparity: evolution and reproductive strategies.
BOEHLERT G W, KUSAKARI M, SHIMIZU M, et al, 1986. Energetics during embryonic development in kurosoi, Sebastes schlegeli Hilgendorf[J]. J Exp Mar Biol Ecol, 101(3): 239-256.
BONNEY E A, 2017. Alternative theories: Pregnancy and immune tolerance[J]. J Reprod Immunol, 123: 65-71.
BRANDLEY M C, YOUNG R L, WARREN D L, et al, 2012. Uterine gene expression in the live-bearing lizard, Chalcides ocellatus, reveals convergence of squamate reptile and mammalian pregnancy mechanisms[J]. Genome Biol Evol, 4(3): 394-411.
BROWN A G, LEITE R S, STRAUSS J F III, 2004. Mechanisms underlying “functional” progesterone withdrawal at parturition[J]. Ann N Y Acad Sci, 1034(1): 36-49.
CATENI C, PAULESU L, BIGLIARDI E, et al, 2003. The interleukin 1 (IL-1) system in the uteroplacental complex of a cartilaginous fish, the smoothhound shark, Mustelus canis[J]. Reprod Biol Endocrinol, 1: 25.
CONDE-AGUDELO A, ROMERO R, 2014. Prediction of preterm birth in twin gestations using biophysical and biochemical tests[J]. Am J Obstet Gynecol, 211(6): 583-595.
CRISCUOLO-URBINATI E, KURADOMI R Y, URBINATI E C, et al, 2012. The administration of exogenous prostaglandin may improve ovulation in pacu (Piaractus mesopotamicus)[J]. Theriogenology, 78(9): 2087-2094.
DINARELLO C A, 2007. Historical insights into cytokines[J]. Eur J Immunol, 37(Suppl 1): S34-S45.
DU T, XIAO Y, ZHAO H, et al, 2021. Multiple fetal nutritional patterns before parturition in viviparous fish Sebastes schlegelii (Hilgendorf, 1880)[J]. Front Mar Sci, 7: 571946.
DUBICKE A, FRANSSON E, CENTINI G, et al, 2010. Pro-inflammatory and anti-inflammatory cytokines in human preterm and term cervical ripening[J]. J Reprod Immunol, 84(2): 176-185.
DUBUC R, BROCARD F, ANTRI M, et al, 2008. Initiation of locomotion in lampreys[J]. Brain Res Rev, 57(1): 172-182.
DUNWOODIE S L, 2009. The role of hypoxia in development of the Mammalian embryo[J]. Dev Cell, 17(6): 755-773.
EVANS D H, 1984. 8 the roles of gill permeability and transport mechanisms in euryhalinity[M]//Fish Physiology. Amsterdam: Elsevier: 239-283.
FU B, LI X, SUN R, et al, 2013. Natural killer cells promote immune tolerance by regulating inflammatory TH17 cells at the human maternal-fetal interface[J]. Proc Natl Acad Sci USA, 110(3): E231-E240.
FUJIMORI C, OGIWARA K, HAGIWARA A, et al, 2011. Expression of cyclooxygenase-2 and prostaglandin receptor EP4b mRNA in the ovary of the medaka fish, Oryzias latipes: Possible involvement in ovulation[J]. Mol Cell Endocrinol, 332(1/2): 67-77.
GUO Q, LYU L, WEN H, et al, 2024. Black rockfish(Sebastes schlegelii)nuclear progesterone receptor: Cloning, tissue distribution and potential role in ovoviviparity teleost pregnancy and parturition[J]. Aquac Rep, 36: 102068.
HADLEY E E, RICHARDSON L S, TORLONI M R, et al, 2018. Gestational tissue inflammatory biomarkers at term labor: Asystematic review of literature[J]. American J Rep Immunol, 79(2): e12776.
HALLIWELL B, ULLER T, HOLLAND B R, et al, 2017. Live bearing promotes the evolution of sociality in reptiles[J]. Nat Commun, 8(1): 2030.
HANSEN V L, FABER L S, SALEHPOOR A A, et al, 2017. A pronounced uterine pro-inflammatory response at parturition is an ancient feature in mammals[J]. Proc Biol Sci, 284(1865): 20171694.
JING X, LYU L, GONG Y, et al, 2023. Olfactory receptor OR52N2 for PGE2 in mediation of guppy courtship behaviors[J]. Int J Biol Macromol, 241: 124518.
JUNTTI S A, HILLIARD A T, KENT K R, et al, 2016. A neural basis for control of cichlid female reproductive behavior by prostaglandin F2α[J]. Curr Biol, 26(7): 943-949.
KANY S, VOLLRATH J T, RELJA B, 2019. Cytokines in inflammatory disease[J]. Int J Mol Sci, 20(23): E6008.
KOYA Y, FUJITA A, NIKI F, et al, 2003. Sex differentiation and pubertal development of gonads in the viviparous mosquitofish, Gambusia affinis[J]. Zoolog Sci, 20(10): 1231-1242.
LABERGE F, HARA T J, 2003. Behavioural and electrophysiological responses to F-prostaglandins, putative spawning pheromones, in three salmonid fishes[J]. J Fish Biol, 62(1): 206-221.
Le BOUTEILLER P, BENSUSSAN A, 2017. Up-and-down immunity of pregnancy in humans[J]. F1000Research, 6: 1216.
LI J, LYU L, WEN H, et al, 2024. Estrogen regulates the transcription of guppy isotocin receptors[J]. Comp Biochem Physiol B Biochem Mol Biol, 269: 110895.
LI X, O’MALLEY B W, 2003. Unfolding the action of progesterone receptors[J]. J Biol Chem, 278(41): 39261-39264.
LYU L K, LI J S, WANG X J, et al, 2021. Arg-vasotocin directly activates isotocin receptors and induces COX2 expression in ovoviviparous guppies[J]. Front Endocrinol, 12: 617580.
LYU L, WANG R, WEN H, et al, 2022a. Cyclooxygenases of ovoviviparous black rockfish (Sebastes schlegelii): Cloning, tissue distribution and potential role in mating and parturition[J]. Comp Biochem Physiol B Biochem Mol Biol, 257: 110677.
LYU L, WEN H, LI Y, et al, 2022b. Brain transcriptomic dataset during parturition in ovoviviparous Sebastes schlegelii[J]. Front Genet, 13: 840067.
LYU L, WEN H, LI Y, et al, 2024a. PGE2 functions in ovoviviparous teleost black rockfish (Sebastes schlegelii): Evolutionary status between parturition and ovulation[J]. Biol Reprod, 110(1): 140-153.
LYU L, YAO Y, XIE S, et al, 2024b. Mating behaviors in ovoviviparous black rockfish (Sebastes schlegelii): Molecular function of prostaglandin E2 as both a hormone and pheromone[J]. Mar Life Sci Technol, 6(1): 15-30.
MALTEPE E, FISHER S J, 2015. Placenta: The forgotten organ[J]. Annu Rev Cell Dev Biol, 31: 523-552.
MARSICO T V, SILVA M V, VALENTE R S, et al, 2023. Unraveling the consequences of oxygen imbalance on early embryo development: Exploring mitigation strategies[J]. Animals, 13(13): 2171.
MAYER I, LILEY N R, BORG B, 1994. Stimulation of spawning behavior in castrated rainbow trout (Oncorhynchus mykiss) by 17 alpha, 20 beta-dihydroxy-4-pregnen-3-one, but not by 11-ketoandrostenedione[J]. Horm Behav, 28(2): 181-190.
MOMBAERTS P, 1999. Molecular biology of odorant receptors in vertebrates[J]. Annu Rev Neurosci, 22: 487-509.
MORI H, NAKAGAWA M, SOYANO K, et al, 2003. Annual reproductive cycle of black rockfish Sebastes schlegeli in captivity[J]. Fisheries Sci, 69(5): 910-923.
MULAC-JERICEVIC B, CONNEELY O M, 2004. Reproductive tissue selective actions of progesterone receptors[J]. Reproduction, 128(2): 139-146.
MUNAKATA A, AMANO M, IKUTA K, et al, 2002. Sex steroids control migration of Masu salmon[J]. Fish Sci, 68(sup1): 49-52.
NEUFELD G, SABAG A D, RABINOVICZ N, et al, 2012. Semaphorins in angiogenesis and tumor progression[J]. Cold Spring Harb Perspect Med, 2(1): a006718.
OCHEDALSKI T, LACHOWICZ A, 2004. Maternal and fetal hypothalamo-pituitary-adrenal axis: Different response depends upon the mode of parturition[J]. Neuro Endocrinol Lett, 25(4): 278-282.
PATZNER R A, 2008. Reproductive strategies of fish[M]//Fish Reproduction. CRC Press: 325-364.
PAULESU L, 1997. Cytokines in mammalian reproduction and speculation about their possible involvement in nonmammalian viviparity[J]. Microsc Res Tech, 38(1/2): 188-194.
PAULESU L, ROMAGNOLI R, BIGLIARDI E, 2005. Materno-fetal immunotolerance: Is Interleukin-1 a fundamental mediator in placental viviparity?[J]. Dev Comp Immunol, 29(5): 409-415.
POLLUX B J A, PIRES M N, BANET A I, et al, 2009. Evolution of placentas in the fish family Poeciliidae: An empirical study of macroevolution[J]. Annu Rev Ecol Evol Syst, 40: 271-289.
RACICOT K, KWON J Y, ALDO P, et al, 2014. Understanding the complexity of the immune system during pregnancy[J]. Am J Reprod Immunol, 72(2): 107-116.
ROBERTSON S A, CHRISTIAENS I, DORIAN C L, et al, 2010. Interleukin-6 is an essential determinant of on-time parturition in the mouse[J]. Endocrinology, 151(8): 3996-4006.
ROMAGNOLI R, CATENI C, GUARINO F M, et al, 2003. Potential role of interleukin-1 at the peri-ovulation stage in a species of placental viviparous reptile, the three-toed skink, Chalcides chalcides (Squamata: Scincidae)[J]. Reprod Biol Endocrinol, 1: 60.
ROMERO R, ESPINOZA J, GONÇALVES L F, et al, 2007. The role of inflammation and infection in preterm birth[J]. Semin Reprod Med, 25(1): 21-39.
RUBENS C E, SADOVSKY Y, MUGLIA L, et al, 2014. Prevention of preterm birth: Harnessing science to address the global epidemic[J]. Sci Transl Med, 6(262): 262sr5.
SATO Y, MIYASAKA N, YOSHIHARA Y, 2007. Hierarchical regulation of odorant receptor gene choice and subsequent axonal projection of olfactory sensory neurons in zebrafish[J]. J Neurosci, 27(7): 1606-1615.
SATOU M, TAKEUCHI H A, TAKEI K, et al, 1994. Characterization of vibrational and visual signals which elicit spawning behavior in the male himé salmon (landlocked red salmon, Oncorhynchus nerka)[J]. J Comp Physiol A, 174(5): 527-537.
SATOU M, 1987. A neuroethological study of reproductive behavior in the salmon[C] // Proc 3rd Int Symp Reprod Physiol Fish: 154-159.
SHINE R, BULL J J, 1979. The evolution of live-bearing in lizards and snakes[J]. Am Nat, 113(6): 905-923.
SMITH C, WOOTTON R J, 2016. The remarkable reproductive diversity of teleost fishes[J]. Fish, 17(4): 1208-1215.
SORENSEN P W, 1992. Hormones, pheromones and chemoreception[M]//HARA T J, ed. Fish Chemoreception. Dordrecht: Springer Netherlands: 199-228.
SORENSEN P W, APPELT C, STACEY N E, et al, 2018. High levels of circulating prostaglandin F2α associated with ovulation stimulate female sexual receptivity and spawning behavior in the goldfish (Carassius auratus)[J]. Gen Comp Endocrinol, 267: 128-136.
SORENSEN P W, HARA T J, STACEY N E, et al, 1988. F prostaglandins function as potent olfactory stimulants that comprise the postovulatory female sex pheromone in goldfish[J]. Biol Reprod, 39(5): 1039-1050.
STEPHEN G L, LUI S, HAMILTON S A, et al, 2015. Transcriptomic profiling of human choriodecidua during term labor: Inflammation as a key driver of labor[J]. Am J Reprod Immunol, 73(1): 36-55.
VANNUCCINI S, BOCCHI C, SEVERI F M, et al, 2016. Endocrinology of human parturition[J]. Ann Endocrinol, 77(2): 105-113.
VOLKOFF H, PETER R E, 1999. Actions of two forms of gonadotropin releasing hormone and a GnRH antagonist on spawning behavior of the goldfish Carassius auratus[J]. Gen Comp Endocrinol, 116(3): 347-355.
WANG X, MENG W, QI X, et al, 2022. Molecular characterization and expression patterns of glucocorticoid receptors in the viviparous black rockfish Sebastes schlegelii[J]. Gen Comp Endocrinol, 316: 113947.
WARING C P, MOORE A, SCOTT A P, 1996. Milt and endocrine responses of mature male Atlantic salmon (Salmo salar L.) parr to water-borne testosterone, 17, 20β-dihydroxy-4-pregnen-3-one 20-sulfate, and the urines from adult female and male salmon[J]. Gen Comp Endocrinol, 103(2): 142-149.
WOURMS J P, 1977. Reproduction and development in chondrichthyan fishes[J]. Integr Comp Biol, 17(2): 379-410.
WOURMS J P, 1981. Viviparity: The maternal-fetal relationship in fishes[J]. Integr Comp Biol, 21(2): 473-515.
WOURMS J P, GROVE B D, LOMBARDI J, 1988. 1 the maternal-embryonic relationship in viviparous fishes[M]//Fish Physiology. Amsterdam: Elsevier: 1-134.
WOURMS J P, LOMBARDI J, 1992. Reflections on the evolution of piscine viviparity[J]. Integr Comp Biol, 32(2): 276-293.
XIE S, YAO Y, WEN H, et al, 2023. Function of secretoneurin in regulating the expression of reproduction-related genes in ovoviviparous black rockfish (Sebastes schlegelii)[J]. Comp Biochem Physiol B Biochem Mol Biol, 266: 110852.
XU X, WANG X, LIU Q, et al, 2022. New insights on folliculogenesis and follicular placentation in marine viviparous fish black rockfish (Sebastes schlegelii)[J]. Gene, 827: 146444.
YABUKI Y, KOIDE T, MIYASAKA N, et al, 2016. Olfactory receptor for prostaglandin F2α mediates male fish courtship behavior[J]. Nat Neurosci, 19(7): 897-904.
YAMBE H, MUNAKATA A, KITAMURA S, et al, 2003. Methyltestosterone induces male sensitivity to both primer and releaser pheromones in the urine of ovulated female Masu salmon[J]. Fish Physiol Biochem, 28(1): 279-280.
YAN S, CHEN J, LYU L, et al, 2022a. Molecular characterization and expression patterns of nuclear androgen receptors in the ovoviviparous black rockfish Sebastes schlegelii[J]. Aquac Fish, 7(5): 454-461.
YAN S, LYU L, WANG X, et al, 2022b. The anti-inflammatory cytokine IL-22 exhibited a proinflammatory effect in the ovary aiding with the parturition of ovoviviparous black rockfish (Sebastes schlegelii)[J]. Front Mar Sci, 9: 1041681.
YAN S, LYU L, WANG X, et al, 2023. Pro-inflammatory cytokine IL1β1 participates in promoting parturition related pathways in the ovoviviparous teleost black rockfish (Sebastes schlegelii)[J]. Biol Reprod, 109(5): 693-704.
ZAKAR T, HERTELENDY F, 2007. Progesterone withdrawal: Key to parturition[J]. Am J Obstet Gynecol, 196(4): 289-296.
ZHENG B, LYU L, WANG X, et al, 2023. Comparative transcriptomic analysis and genome-wide characterization of the Semaphorin family reveal the potential mechanism of angiogenesis around embryo in ovoviviparous black rockfish (Sebastes schlegelii)[J]. Gen Comp Endocrinol, 338: 114275.
0
浏览量
0
下载量
0
CSCD
关联资源
相关文章
相关作者
相关机构