تعداد نشریات | 31 |
تعداد شمارهها | 743 |
تعداد مقالات | 7,072 |
تعداد مشاهده مقاله | 10,134,469 |
تعداد دریافت فایل اصل مقاله | 6,851,891 |
Oocyte maturation and changes of plasma steroid levels in the wild and cultured pikeperch, Sander lucioperca following hormonal induction | ||
Caspian Journal of Environmental Sciences | ||
دوره 22، شماره 3، مهر 2024، صفحه 555-566 اصل مقاله (751.94 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22124/cjes.2024.7778 | ||
نویسندگان | ||
Bahram Falahatkar* 1؛ Samaneh Poursaeid2؛ Hadi Ershad Langroudi3؛ Iraj Efatpanah1؛ Bahman Meknatkhah1 | ||
1Fisheries Department, Faculty of Natural Resources, University of Guilan, Sowmeh Sara, Guilan, Iran | ||
2Department of Cell Biology, University of Connecticut Health Center, Farmington, Connecticut, United States | ||
3Department of Fisheries, Lahijan Branch, Islamic Azad University, P.O. Box 1616, Lahijan, Iran | ||
چکیده | ||
The present study was designed to compare plasma steroid levels and spawning success between wild and cultured female pikeperch, Sander lucioperca after induction of ovulation by different hormones. Two groups of wild-caught (1183.1 ± 56.1 g) or cultured (337.4 ± 20.1 g) fish were treated with human chorionic gonadotropin (hCG; 650 IU kg-1), common carp pituitary homogenate (CPH; 6 mg kg-1), luteinizing hormone releasing hormone analog (LHRHa2; 13.5 µg kg-1), and saline solution as control group. The females were injected with those agents as priming and resolving dosages. The blood samples were obtained before hormonal treatment and after ovulation followed by assaying plasma levels of sex steroids (17β-estradiol, testosterone and progesterone) and stress indicators (cortisol, glucose and lactate). The results revealed that all wild-caught females responded to CPH and LHRHa2, while only 75% of wild-caught females injected with hCG and cultured ones injected with hCG and CPH responded to the hormones and that no cultured ones responded to the injection of LHRHa2. According to reproductive parameters including the number of eggs g-1 and working fecundity, no significant differences were found in various treatments. All hormonal treatments exhibited an elevation in cortisol and glucose values in cultured fish after ovulation. In contrast, plasma cortisol levels declined significantly after ovulation in wild groups. The present study displayed that CPH and hCG induce a high reproductive performance and can be recommended to induce the controlled reproduction of either wild-caught or farmed pikeperch. In addition, our results revealed that wild-caught fish are more sensitive in term of cortisol and glucose levels than cultured conspecifics. | ||
کلیدواژهها | ||
Broodstock؛ Cortisol؛ Hormonal treatment؛ Sander lucioperca؛ Sex steroids | ||
مراجع | ||
Akbari Nargesi, E, Falahatkar, B & Żarski, D 2022, Artificial reproduction of Caspian roach, Rutilus caspicus following stimulating ovulation with Ovaprim, Ovopel, and their combinations under controlled conditions. Animal Reproduction Science, 238: 106932.
Barrero, M, Small, BC, D'Abramo, LR, Waldbieser, GC, Hanson, LA & Kelly, AM 2008, Effect of carp pituitary extract and luteinizing releasing hormone on reproductive steroids, cathepsins, and incidence of spawning in young adult juvenile catfish. North American Journal of Aquaculture, 70: 138-146.
Barton, BA 2002, Stress in fishes: A diversity of responses with particular reference to changes in circulating corticosteroids. Integrated and Comparative Biology, 42: 517-525.
Barton, BA, Ribas, L, Acerete, L & Tort, L 2005, Effects of chronic confinement on physiological responses of juvenile gilthead sea bream, Sparus aurata L., to acute handling. Aquaculture Research, 36: 172-179. Barton, BA, Rahn, AB, Feist, G, Bollig, H & Schreck, CB 1998, Physiological stress responses of the freshwater chondrostean paddlefish (Polydon spathula) to acute physical disturbances. Comparative Biochemistry and Physiology, 120A: 355-363.
Bayunova, L., Barannikova, I. & Semenkova, T. 2002, Sturgeon stress reactions in aquaculture. Journal of Applied Ichthyology, 18: 397-404
Bayunova, LV, Canatio, AM, Semenkova, T, Dybin, V, Svordlova, D & Trenkler, I 2006, Sex steroids and cortical levels in the blood stellate sturgeon (Acipenser stellatus Pallas) during final maturation induced by LH-RH analogue. Journal of Applied Ichthyology, 22: 334-339.
Blecha, M, Samarin, AM, Křišt'an, J & Policar, T 2016, Benefits of hormone treatment of both sexes in semi-artificial reproduction of pikeperch (Sander lucioperca L.). Czech Journal of Animal Science, 61: 203-208.
Bradford, CS, Fitzpatrick, MS & Schreck, CB 1992, Evidence for ultra-short-loop feed-back in ACTH-induced interregnal steroidogenesis in coho salmon: Acute self-suppression of cortisol secretion in vivo. General and Comparative Endocrinology, 87: 292-299.
Brzuska, E 2021, Reproduction effectiveness of carp (Cyprinus carpio L.) from the Hungarian W breeding line after stimulating ovulation with spawning inducing agents of natural (CPH, hCG, PMSG) and/or synthetic origin (Ovopel, Dagin, Ovaprim, mGnRH-a). Aquaculture, 532: 736023.
Caylor, RE, Biesiot, PM & Franks, JS 1994, Culture of cobia Rachycentron canadum: cryopreservation of sperm and induced spawning. Aquaculture, 125: 81-92.
Dorafshan S, Mostafavi H, Mojazi Amiri B 2003, Induction of spawning in common carp Cyprinus carpio, using pituitary extract and GnRH analogue in combination with domperidone. Iranian Journal of Biotechnology, 1: 213-217.
Drori, S, Ofir, M, Levavi-Sivan, B & Yaron, Z 1994, Spawning induction in common carp, Cyprinus carpio, using pituitary extract or GnRH superactive analogue combined with metoclopramide: analysis of profile, progress of oocyte maturation and dependence on temperature. Aquaculture, 119: 393-407.
Emata, AC, Eullaran, B & Bagarinao, TU 1994, Induced spawning and early life description of the mangrove red snapper, Lutjanus argentimaculatus. Aquaculture, 121: 381-387.
Falahatkar, B & Poursaeid, S 2014, Effects of hormonal manipulation on stress responses in male and female broodstocks of pikeperch Sander lucioperca. Aquaculture International, 22: 235-244.
Falahatkar, B, Poursaeid, S, Ershad Langroudi, H, Efatpanah, I, Meknatkhah, B & Rahmati, M 2013, Spawning induction in Kutum Rutilus frisii kutum (Kamensky, 1901) using different hormonal administrations: analysis of hormone profile and success of induction. Archive of Polish Fisheries, 21: 271-281.
Falahatkar, B, Efatpanah, I & Kestemont, P 2018, Pikeperch Sander lucioperca production in the south part of the Caspian Sea: technical notes. Aquaculture International, 26: 391-401.
Falahatkar, B, Javid Rahmdel, K, Rasouli Kargar, E & Gholami, S 2022, Evaluation of various hCG treatment strategies applied to domesticated pikeperch (Sander lucioperca) broodstock on nest-spawning performance. Aquaculture International, 30: 73-85.
Fostier, A & Jalabert, B 1986, Steroidogenesis in rainbow trout (Salmo gairdneri) at various preovulatory stages: changes in plasma hormone levels and in vivo and in vitro responses of the ovary to salmon gonadotropin. Fish Physiology and Biochemistry, 2: 87-99.
Fryer, J Lederis, K & Rivier, J 1984, Cortisol inhibits the ACTH-releasing activity of urotensin I, CRH and sauvagine observed with superfused goldfish pituitary cells. Peptides, 5: 925-930.
García-Alonso, J & Vizziano, D 2004, Induction of oocyte maturation in the white croaker Micropogonias furnieri (Pisces: Sciaenidae) by human chorionic gonadotropin. Brazilian Journal of Biology, 64: 73-80.
Haddy, JA & Pankhurst, NW 1999, Stress-induced changes in concentrations of plasma sex steroids in black bream. Journal of Fish Biology, 55: 1304-1316.
Haddy, JA & Pankhurst, NW 2000, The efficacy of exogenous hormones in stimulating changes in plasma steroids and ovulation in wild black bream Acanthopagrus butcheri is improved by treatment at capture. Aquaculture, 191: 351-366.
Harmin, SA & Crim, LW 1992, Gonadotropin releasing-hormone analogue (GnRH-A) induced ovulation and spawning in female winter flounder, Pseudopleuronectes americanus (Walbaum). Aquaculture, 104: 375-390.
Hodson, R & Sullivan, CV 1993, Induced maturation and spawning of domestic and wild striped bass, Morone saxatilis (Walbaum), broodstock with implanted GnRH analogue and injected hCG. Aquaculture Research, 24: 389-398.
Kubokawa, K, Watanabe, T, Yoshioka, M & Iwata, M 1999, Effects of acute stress on plasma cortisol, sex steroid hormone and glucose levels in male and female sockeye salmon during the breeding season. Aquaculture, 172: 335-349.
Kucharczyk, D, Kujawa, R, Mamcarz, A, Targonska-Dietrich, K, Wyszomirska, E, Glogowski, J, Babiak, I & Szabo, T 2005, Induced spawning in bream (Abramis brama) using pellets containing GnRH. Czech Journal of Animal Science, 50: 89-95.
Kucharczyk, D, Kestemont, P & Mamcarz, A 2007, Artificial Reproduction of Pikeperch. Polish Ministry of Science, Olsztyn, Poland, 80 p.
Kucharczyk, D, Nowosad, J, Kucharczyk, DJ, Kupren, K, Targońska, K & Kujawa, R 2019, Out-of-season artificial reproduction of common dace (Leuciscus leuciscus L.) under controlled conditions. Animal Reproduction Science, 202: 21-25.
Kucharczyk, D, Nowosad, J, Wyszomirska, E, Cejko, BI, Arciuch-Rutkowska, M, Juchno, D & Boroń, A 2020, Comparison of artificial spawning effectiveness of hCG, CPH and GnRHa in combination with dopamine inhibitors in a wild strain of ide Leuciscus idus (L.) in hatchery conditions. Animal Reproduction Science, 221: 106543.
Kucharczyk, D, Malinovskyi, O, Nowosad, J, Kowalska, A & Cejko, BI, 2021, Comparison of responses to artificial spawning of ruffe (Gymnocephalus cernua) specimens captured from their natural habitat to those produced in cultured conditions. Animal Reproduction Science, 225: 106684.
Kucharczyk, D, Nowosad, J, Łubowski, T, Ablaisanova, GM, Zeghloul, T & Abdel-Latif, HMR 2022, Influence of the source of spawners’ origin on oocyte maturity stages and suitability for artificial reproduction of wild pikeperch (Sander lucioperca) females during spawning season. Animal Reproduction Science, 243: 107025.
Kujawa, R, Kucharczyk, D, Mamcarz, A, Żarski, D & Targońska, K 2011, Artificial spawning of common tench Tinca tinca (Linnaeus, 1758), obtained from wild and domestic stocks. Aquaculture International, 19: 513-521.
Kusakabe, M, Nakamura, I & Young, G 2003, 11beta-hydroxysteroid dehydrogenase complementary deoxyribonucleic acid in rainbow trout: cloning, sites of expression, and seasonal changes in gonads. Endocrinology, 144: 2534-2545.
Larsson, DGJ, Mylonas, CC, Zohar, Y & Crim, LW 1997, Gonadotropin releasing hormone-analogue (GnRH-A) advances ovulation and improves the reproductive performance of a cold-water batch-spawning teleost, the yellowtail flounder (Pleuronectes ferrugineus). Canadian Journal of Aquatic and Fisheries Sciences, 54: 1957-1964.
Leatherland, JF, Li, M & Barkataki, S 2010, Stressors, glucocorticoids and ovarian function in teleosts. Journal of Fish Biology, 76: 86-111.
Levavi-Sivan, B, Vaiman, R, Sachs, O & Tzchori, I 2004, Spawning induction and hormonal levels during final oocyte maturation in the silver perch (Bidyanus bidyanus). Aquaculture, 229: 419-431.
Ma, Y, Ladisa, C, Chang, JP & Habibi, HR 2020, Multifactorial control of reproductive and growth axis in male goldfish: Influences of GnRH, GnIH and thyroid hormone. Molecular and Cellular Endocrinology, 500: 110629.
Malison, JA, Procarione, LS, Barry, TP, Kapuscinski, AR & Kayes, TB 1994, Endocrine and gonadal changes during the annual reproductive cycle of the freshwater teleost Stizostedion vitreum (walleye). Fish Physiology and Biochemistry, 13: 473-484.
Matsuyama, M, Takeuchi, H, Kashiwagi, M, Hirose, K & Kagawa, H 1995, Induced gonadal development and spawning of immature red sea bream Pagrus major with LHRH-a administration in different ways during winter season. Fisheries Science, 61: 472-477.
Milla, S, Khendek, A, Zarski, D, Ledoré, Y, Ben Ammar, I & Fontaine, P 2021, Duration of chilling phase, but not thermal condition, influence the gonad maturation of male and female domesticated pikeperch (Sander lucioperca). Aquaculture, Fish and Fisheries, 1: 51-59.
Mohammadzadeh, S, Yeganeh, S, Moradian, F, Milla, S & Falahatkar, B 2021, Spawning induction in Sterlet sturgeon (Acipenser ruthenus) with recombinant GnRH: Analysis of hormone profiles and spawning indices. Aquaculture, 533: 736108.
Mommsen, TP, Mathilakath, M & Moon, TW 1999, Cortisol in teleosts: dynamics, mechanisms of action, and metabolic regulation. Reviews in Fish Biology and Fisheries, 9: 211-268.
Mylonas, CC, Hinshaw, JM & Sullivan, CV 1992, GnRHa-induced ovulation of brown trout (Salmo trutta) and its effects on egg quality. Aquaculture, 106: 379-392.
Mylonas, CC, Tabata, Y, Langer, R & Zohar, Y 1995a, Preparation and evaluation of polyanhydride microspheres containing gonadotropin-releasing hormone (GnRH), for inducing ovulation and spermiation in fish. Journal of Controlled Release, 35: 23-34.
Mylonas, CC, Zohar, Y, Richardson, BM & Minkinnen, SP 1995b, Induced spawning of wild American shad, Alosa sapidissima, using sustained administration of gonadotropin-releasing hormone analogue (GnRHa). Journal of the World Aquaculture Society, 26: 240-251.
Mylonas, CC, Gissis, A, Magnus, Y & Zohar, Y 1997, Hormonal changes in male white bass (Morone chrysops) and evaluation of milt quality after treatment with a sustained-release GnRHa-delivery system. Aquaculture, 153: 301-313.
Mylonas, C & Zohar, Y 2001, Endocrine regulation and artificial induction of oocyte maturation and spermiation in basses of the genus Morone. Aquaculture, 202: 205-220.
Mylonas, CC, Fostier, A & Zanuy, S 2010, Broodstock management and hormonal manipulations of fish reproduction. General and Comparative Endocrinology, 165: 516-534.
Nagahama, Y & Yamashita, M 2008, Regulation of oocyte maturation in fish. Development, Growth and Differentiation, 50: 195-219.
Nowosad, J, Abdel-Latif, HMR, Łuczyński, MJ, Boroń, A, Kapusta, A, Kujawa, R, Przybył, A & Kucharczyk D, 2023, Artificial reproduction of vimba bream (Vimba vimba) cultured generation F2 and eggs management under controlled conditions. Aquaculture, 575: 739741.
Pankhurst, NW & Carragher, JF 1992, Oocyte maturation and changes in plasma steroid levels in snapper Pagrus (Chrysophrys) auratus (Sparidae) following treatment with human chorionic gonadotropin. Aquaculture, 101: 337-347.
Pankhurst, NW & Van Der Kraak, G 1997, Effects of stress on reproduction and growth of fish. In: GK, Iwama, AD, Pickering, JP, Sumpter & CB, Schreck (Eds.) Fish stress and health in aquaculture, pp. 73-93, Cambridge University Press, Cambridge, UK.
Pankhurst, NW & Van Der Kraak, G 2000, Evidence that acute stress inhibits ovarian steroidogenesis in rainbow trout in vivo, through the action of cortisol. General and Comparative Endocrinology, 117: 225-237.
Pankhurst, NW, Van Der Kraak, G & Peter, RE 1986, Effects of human chorionic gonadotropin, DES- GLY10 (D-ALA6) LHRH-Ethylamide and pimozide on oocyte final maturation, ovulation and levels of plasma sex steroids in the walleye (Stizostedion vitreum). Fish Physiology and Biochemistry, 1: 45-54.
Part, F, Zanuy, S & Carrillo, M 2001, Effect of gonadortopin-releasing hormone analogue (GnRHa) and pimozide on plasma levels of sex steroids and ovarian development in sea bass (Dicentrarchus labrax L). Aquaculture, 198: 325-338.
Paykan Heyrati, F, Mostafavi, H, Toloee, H & Dorafshan, S 2007, Induced spawning of kutum, Rutilus frisii kutum (Kamenskii, 1901) using (D-Ala6, Pro9-NEt) GnRHa combined with domperidone. Aquaculture, 265: 288-293.
Pickering, AD & Christie, P 1981, Changes in the concentration of plasma cortisol and thyroxine during sexual maturation of the hatchery-reared brown trout, Salmo trutta L. General and Comparative Endocrinology, 44: 487-496.
Pickering, AD, Pottinger, TG & Christie, P 1982, Recovery of the brown trout, Salmo trutta L., from acute handling stress: a time course study. Journal of Fish Biology, 20: 229-244.
Podhorec, P, Socha, M, Ammar, IB, Sokolowska, M, Brzuska, E, Milla, S, Gosiewski, G, Stejskal, V, Simko, M & Kouril, J 2016, The effects of GnRHa with and without dopamine antagonist on reproductive hormone levels and ovum viability in tench, Tinca tinca. Aquaculture, 465: 158-163.
Policar, T, Blecha, M, Křišťan, J Mráz, J, Velíšek, J, Stará, A, Stejskal, V, Malinovskyi, O, Svačina P & Mohagheghi Samarin A 2016, Comparison of production efficiency and quality of differently cultured pikeperch (Sander lucioperca L.) juveniles as a valuable product for ongrowing culture. Aquaculture International, 24: 1607-1626.
Policar, T, Schaefer, FJ, Panana, E Meyer, S, Teerlinck, S, Toner D & Żarski, D 2019, Recent progress in European percid fish culture production technology—tackling bottlenecks. Aquaculture International, 27: 1151-1174.
Rainis, S & Ballestrazzi, R 2005, The control of reproduction in finfish species through GnRH treatments. Italian Journal of Animal Sciences, 4: 345-353.
Ruane, NM, Huisman, EA & Komen, J 2001, Plasma cortisol and metabolite level profiles in two isogenic strains of common carp during confinement. Journal of Fish Biology, 59: 1-12.
Scott, AP, Sumpter, JP & Hariman, PA 1983, Hormone changes during ovulation in the rainbow trout (Salmo gairdneri Richardson). General and Comparative Endocrinology, 49: 128-134.
Semenkova, TB, Baranikova, IA, Kime, DE, McAllister, BG, Bayunova, L, Dybin, VP & Kolmakov, NN 2002, Sex steroids profiles in female and male stellate sturgeon during final maturation induced by hormonal treatment. Journal of Applied Ichthyology, 18: 375-382.
Steenfeldt, S, Fontaine, P, Overton, JL, Policar, T, Toner, D, Falahatkar, B, Horváth, A, Ben Khemis, I, Hamza, N & Mhetli, M 2015, Current status of Eurasian percid fishes Aquaculture. In Kestemont, P, Dabrowski, K, Summerfelt, RS (Eds.) Biology and culture of percid fishes; Principles and practices. pp. 817-841. Springer Science, Dordrecht.
Szabo, T, Medgyasszay, C & Horvath, L 2002, Ovulation induction in nase (Chondrostoma nasus, Cyprinidae) using pituitary extract or GnRH analogue combined with domperidone. Aquaculture, 203: 389-395.
Young, G, Adachi, S & Nagahama, Y 1986, Role of ovarian thecal and granulosa layers in gonadotropin-induced synthesis of a salmonid maturation-inducing substance (17α, 20β-dihydroxy-4-pregnen-3-one). Developmental Biology, 118: 1-8.
Zakęś, Z & Demska-Zakęś, K 2005, Controlled reproduction of pikeperch Sander lucioperca (L.): A review. Archives of Polish Fisheries, 17: 153-170.
Żarski, D, Palińska, K, Targońska, K, Bokor, Z, Kotrik, L, Krejszeff, S, Kupren, K, Horváth, Á Urbányi, B & Kucharczyk, D 2011a, Oocyte quality indicators in Eurasian perch, Perca fluviatilis L., during reproduction under controlled conditions. Aquaculture, 313: 84-91.
Żarski, D, Kucharczyk, D, Targońska, K, Palińska, K, Kupren, K, Fontaine, P & Kestemont, P 2012, A new classification of pre-ovulatory oocyte maturation stages in pikeperch, Sander lucioperca (L.), and its application during artificial reproduction. Aquaculture Research, 43: 713-721.
Żarski, D, Bokor, Z, Kotrik, L, Urbanyi, B, Horváth, A, Targońska, K, Krejszeff, S, Palińska, K & Kucharczyk, D 2011b, A new classification of a preovulatory oocyte maturation stage suitable for the synchronization of ovulation in controlled reproduction of Eurasian perch, Perca fluviatilis L. Reproductive Biology, 11: 194-209.
Żarski, D, Horváth, A, Held, JA, & Kucharczyk, D 2015, Artificial reproduction of percid fishes. Biology and Culture of Percid Fishes: In: P, Kestemont, K, Dabrowski, RS, Summerfelt (Eds.) Biology and Culture of Percid Fishes; Principles and Practices, pp. 123-161. Springer Science, Dordrecht.
Żarski, D, Fontaine, P, Roche, J, Alix, M, Blecha, M, Broquard, C, Król, J & Milla, S 2019, Time of response to hormonal treatment but not the type of a spawning agent affects the reproductive effectiveness in domesticated pikeperch, Sander lucioperca. Aquaculture, 503: 527-536.
Żarski, D, Ben Ammar, I, Bernáth, G, Baekelandt, S, Bokor, Z, Palińska-Żarska, K, Fontaine, P, Horváth, Á, Kestemont, P & Mandiki, SNM 2020, Repeated hormonal induction of spermiation affects the stress but not the immune response in pikeperch (Sander lucioperca). Fish & Shellfish Immunology, 101: 143-151.
Zohar, Y, Tosky, M, Pagelson, G & Finkelman, Y 1989, Induction of spawning in the gilthead seabream, Sparus aurata, using wD-Ala6-Pro9NEtx-LHRH: comparison with the use of hCG. Israeli Journal of Aquaculture Bamidge, 41: 105-113.
Zohar, Y & Mylonas, CC 2001, Endocrine manipulations of spawning in cultured fish: From hormones to genes. Aquaculture, 197: 99-136.
Zonneveld, N, Rustidja, Viveen, WJAR. & Mudana, W 1988, Induced spawning and egg incubation of the Asian catfish, Clarias batrachus. Aquaculture, 74: 41-47. | ||
آمار تعداد مشاهده مقاله: 316 تعداد دریافت فایل اصل مقاله: 524 |