钙、有效磷和微生物植酸酶对蛋鸡卵巢FSHR和LHR表达的影响

Pub Date : 2023-10-18 DOI:10.12681/jhvms.30903
S Guler, ED Asmaz, A Saricetin, SS Cengiz, F Odabasi Erbay, E Demirkan
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引用次数: 0

摘要

卵泡生成、甾体生成、排卵和卵黄生成受下丘脑-垂体-卵巢轴促卵泡激素(FSH)和黄体生成素(LH)的影响,这些激素通过卵巢中促卵泡激素受体(FSHR)和促黄体生成素受体(LHR)起作用。家禽口粮和食品添加剂在调节繁殖活动中是必不可少的。植酸酶是蛋鸡饲粮中经常添加的一种提高磷利用率的添加物。本研究旨在揭示一种新分离的微生物植酸酶与不同浓度钙(Ca2+)和有效磷(AP)对卵巢FSHR和LHR表达的影响。为此,将90只Lohmann LSL-White蛋鸡分为3个主要饲粮组(标准Ca2+和AP、标准Ca2+和低AP、低Ca2+和AP),再分为3个亚组(无植酸酶、商业植酸酶和微生物植酸酶)。试验结束时,所有鸡均屠宰,卵巢组织用福尔马林固定。采用抗fshr和抗lhr一抗进行常规亲和素-生物素复合物免疫组化。免疫组化结果显示,FSHR和LHR在颗粒/卵泡细胞、卵母细胞、间质细胞和卵黄中均有表达。在微生物植酸处理组中,受体的表达强度增加,但在标准Ca和低AP处理组中,颗粒/卵膜细胞和卵母细胞中表达最强。综上所述,在蛋鸡饲粮中添加新分离的微生物植酸酶,并饲喂标准钙和低AP,可能通过提高卵巢FSHR和LHR的表达来提高生殖性能。
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Effects of Calcium, Available Phosphorus and Microbial Phytase on Ovarian FSHR and LHR Expression in Laying Hens
Folliculogenesis, steroidogenesis, ovulation, and vitellogenesis are regulated by the effect of follicle stimulating hormone (FSH) and luteinizing hormone (LH) in the hypothalamus-pituitary-ovary axis and these hormones act via follicle stimulating hormone receptor (FSHR) and luteinizing hormone receptor (LHR) in the ovary. Poultry ration and food additives are essential in the regulation of reproductive activity. Phytase is a supplement frequently added to laying hen diets to increase phosphorus (P) utilization. The aim of this study was to reveal the effects of a newly isolated microbial phytase together with different concentrations of calcium (Ca2+) and available phosphorus (AP) on ovarian FSHR and LHR expressions. For this purpose, 90 Lohmann LSL-White layers were first divided into three main diet groups (standard Ca2+ and AP, standard Ca2+ and low AP, low Ca2+ and AP) and then into three subgroups (no-phytase, commercial phytase, and microbial phytase). At the end of the experiment, all chickens were slaughtered and ovarian tissues were fixed in formalin. Routine avidin-biotin complex immunohistochemistry was performed using anti-FSHR and anti-LHR primary antibodies. Immunohistochemically, FSHR and LHR were expressed in granulosa/theca cells, oocytes, interstitial cells, and vitellus. While the expression intensity of the receptors increased in the microbial phytase-treated groups, the strongest expression was obtained in the granulosa/theca cells and oocytes in the standard Ca and low AP group. In conclusion, we suggest that the addition of newly isolated microbial phytase to diets of laying hens and feeding standard Ca and low AP may have positive effects on reproductive performance by increasing the FSHR and LHR expression in ovaries.
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