雄性大熊猫褪黑素与睾酮季节性变化

褪黑素通过调控下丘脑-垂体-性腺内分泌轴使季节性繁殖动物在适宜的季节进行繁殖活动.大熊猫(Ailuropoda melanoleuca)在春季集中繁殖.为探究雄性大熊猫褪黑素和睾酮的季节性变化规律,本研究选取成都大熊猫繁育研究基地3只成年雄性大熊猫作为实验对象,在自然光照下对这3只大熊猫进行每周1次为期1年(2018年...     

Leptin基因多态性与绵羊季节性发情的相关分析

根据leptin基因在GenBank中的已知序列设计两对引物,采用PCR-SSCP技术在常年发情的湖羊和季节性发情的阿勒泰羊群体中进行单核苷酸多态性(SNPs)检测,对筛查到的SNP位点进行基因型与绵羊季节性发情的关联分析。结果表明,与湖羊相比,阿勒泰羊leptin基因第1内含子上有3个连续碱基TTG的插入和C/T碱基突变;第3外显子3上发生G/T碱基突变,编码氨基酸由缬氨酸变成亮氨酸。Leptin外显子2扩增片段上检测到AA、AB、BB三种基因型,BB基因型在阿勒泰羊群体中属于优势基因型;对两个群体进行基因型频率独立性χ2检验,差异极显著(P0.001),说明BB基因型是影响季节性发情的有利基因型。研究结果提示,绵羊品种中Leptin基因序列的差异性可能是造成绵羊季节性发情的原因之一,可作为常年发情绵羊品种选育的辅助标记。     

重庆地区雌性恒河猴生殖生理的季节性变化

目的 研究重庆地区雌性恒河猴性周期的行为、内生殖器随季节的变化.方法 36只人工饲养条件下的成年雌性恒河猴,①建立恒河猴个体月经史档案,观察不同生殖季节性周期的行为变化.②用彩色多普勒超声(CDFI)和MRI检测不同生殖季节恒河猴子宫形态、子宫内膜厚度在月经周期中的变化.③剖腹探查,直视下测量子宫各径线.结果 10月至次年2月恒河猴的月经周期短而规则,CDFI和MRI检测子宫内膜线清晰可见.3月至9月恒河猴的月经周期多不规则,CDFI和MRI检测子宫内膜线模糊,子宫内膜组织、卵巢组织随月经周期变化不明显.结论 重庆地区人工饲养条件下,雌性恒河猴的生殖季节为10月至次年2月,非生殖季节为3月至9月,其性周期的行为、内生殖器随季节变化明显.     

光周期—褪黑素信号调控高原鼠兔精原细胞分化和季节性精子发生

高原鼠兔是青藏高原特有的小型哺乳动物,其繁殖活动呈现明显的季节性。成年雄性高原鼠兔在繁殖期睾丸重量显著增加,精子发生正常进行,而在非繁殖期睾丸退化,精子发生阻断在未分化精原细胞阶段。光周期控制实验显示,长光照（16h∶8h）诱导非繁殖期高原鼠兔重新启动精原细胞分化和精子发生;而短光照（8h∶16h）显著抑制繁殖期高原鼠兔精子发生。酶联免疫分析发现,褪黑素分泌水平在长日照条件下降低而在短日照条件下升高。非繁殖期高原鼠兔连续注射褪黑素拮抗剂能诱导生殖细胞发育和精子发生恢复。促性腺激素释放激素(GnRH)与黄体生成素(LH)在繁殖期鼠兔下丘脑垂体显著升高,促卵泡素（FSH）水平无显著差异。注射GnRH可以促进非繁殖期高原鼠兔精原细胞分化和精子发生,而褪黑素注射后抑制GnRH的分泌进而负调控性腺轴。综上,高原鼠兔季节性精子发生受光周期-褪黑素信号控制,后者主要通过控制GnRH、LH水平影响精原细胞分化。本研究对理解季节性动物精子发生的调控机制有重要借鉴意义。     

季节性变化对雌性恒河猴生殖功能的影响

目的　研究季节性变化对雌性恒河猴生殖功能的影响。方法　采用随机抽样法和放射免疫测定法 ,分析了不同时期雌性恒河猴性皮肤变化、月经周期和生殖激素变化的特点。结果　 ( 1)性征的季节性变化 :在生殖季节雌性恒河猴几乎都出现性皮肤反应 ,出现比较规则月经周期 ,在非生殖季节只有部分雌性恒河猴出现性皮肤反应 ,月经周期不规则 ,行经频率低 ,有的出现长时间的闭经 ;( 2 )生殖激素的季节性变化 :在生殖季节促性腺激素和性类固醇激素的分泌水平都出现周期性的变化 ,而非生殖季节促性腺激素和性类固醇激素的分泌水平没有显著的差异。结论　雌性恒河猴性皮肤变化、月经周期和生殖激素存在明显的季节性差异 ,这种差异导致了雌性恒河猴生殖功能的季节性变化     

褪黑素受体

褪黑素是松果体分泌的主要激素,其功能活动通过特异的Ｇ蛋白耦联受体介导,本文综述褪黑素受体 分布、药理学特性,受体的克隆及受体基因结构特点。     

绵羊季节性繁殖分子机制及休情季节诱导绵羊发情配种技术

季节性繁殖是限制绵羊生产效率的重要因素。季节性繁殖分子机制的深入解析是提高绵羊休情季节发情配种率的前提。研究发现,长光照与短光照条件下绵羊季节性繁殖通路中出现一系列相关信号分子变化及细胞形态学改变。基于季节性繁殖分子机制,研究者已研发出若干休情季节诱导母羊发情配种的技术或方法。本文从季节性繁殖分子机制方面总结了上述光照信号分子及垂体和下丘脑组织中细胞形态学的变化特征,及休情季节诱导母羊发情配种技术的应用效果及其利弊,并提出解决问题的关键在于寻找能够提高休情季节配种率的绿色高效的新型技术。     

肾上腺素对幼龄小鼠胸腺褪黑素受体的调节

应用放射配体结合法检测幼龄小鼠胸腺褪黑素受体（ＭＲ）,并以此为实验模型研究肾上腺素（Ｅ）对胸ＭＲ的影响及作用机制。结果表明,生理浓度的Ｅ即对胸ＭＲ有明显抑制作用,其抑制效应具时间依赖性及剂量依赖性。β－肾上腺素能受体拮抗剂普萘洛尔可逆转引抑制效应,ＣＡＭＰ对ＭＲ也有明显抑制作用,表现Ｅ对ＭＲ的抑制是通过β受体而实现的。这些结果提示,Ｅ在生理情况下即对胸腺ＭＲ有调节作用。     

褪黑素：一个多功能的光周期信号

褪黑素：一个多功能的光周期信号汪晓飞刘志民彭树勋（香港大学医学院生理学系,香港）目录一、褪黑素的分泌（一）正常情况（二）异常情况１．生殖系统异常２．睡眠异常３．精神紊乱二、褪黑素的作用（一）生殖系统（二）脂肪代谢和毛发替换（三）睡眠（四）免疫系统（五...     

褪黑素与衰老

随年龄增长松果腺功能减退、褪黑素分泌降低。施用ＭＴ或松果腺移植可使机体寿命延长。本文从ＭＴ抗氧化、增强免疫和调整生物钟功能等方面,阐明ＭＴ延缓衰老作用的机理。     

褪黑激素及其对动物生殖影响的研究进展

褪黑激素是由松果腺分泌的一种激素,在动物的生殖、生物钟、免疫、抗自由基等方面都有重要影响。简要综述了褪黑激素的主要理化性质及其生物学功能、褪黑激素受体,并总结了近年来褪黑激素对动物生殖影响的研究进展。     

Polymorphism of the melatonin receptor MT1 gene and its relationship with seasonal reproductive activity in the Sarda sheep breed

The aim was to study the polymorphisms of the melatonin receptor 1A gene (MTNR1A) and its relationship with seasonal reproduction in the Sarda sheep breed. Four-thousand multiparous ewes reared under natural photoperiod were randomly chosen. Genomic DNA was extracted and subjected to PCR for the amplification of the main part of exon II of the ovine MTNR1A gene (GenBank U14109). PCR products were subjected to restriction enzymes MnlI and RsaI and placed into +/+, +/− or −/− group for MnlI and C/C, C/T or T/T group for RsaI. Samples were cloned and sequenced. The sequences were aligned with the U14109 sequence of GenBank. Data were subjected to allelic frequency analysis and to the χ² test in order to evaluate the link between genotype and reproductive activity. After MnlI digestion, allelic frequency was 0.78 for allele +and 0.22 for allele −; genotype frequency of the +/+ homozygote was 68%, 20.5% for +/− and 11.5% for −/−. After RsaI, allelic frequency was 0.66 for allele C and 0.34 for allele T; genotype frequency of the C/C homozygote was 53.5%, 26% for C/T and 20.5% for T/T. The population was in Hardy-Weinberg disequilibrium both for the MnlI and RsaI. Lambing frequency of +/+ genotype ewes was higher in the period September–December while for −/− genotype in January–April (P < 0.01). Lambing of C/C genotype ewes showed a higher frequency in September–December while for T/T genotype in January–April (P < 0.01). Results confirmed that the polymorphism of the MTNR1A locus was also present in the Sarda with a higher incidence of the +/+ and C/C genotypes. The animals that carried one of these two gene isoforms showed a not seasonal reproductive activity with the lambing period in September–December.     

褪黑素调控动物繁殖功能的作用途径

褪黑素是由松果体分泌的一种多功能吲哚类激素,在动物繁殖过程中起了至关重要的作用.褪黑素可通过多条途径调控动物的繁殖功能,主要包括：G蛋白偶联受体途径;作为神经内分泌激素对动物繁殖进行调控;与其核受体结合在转录水平上调控动物繁殖;通过抗氧化作用调控卵泡发育.本文就褪黑素对动物繁殖功能的调控途径进行综述,旨在为褪黑素调控动物繁殖的相关研究提供帮助.     

Genetic mapping of quantitative trait loci for aseasonal reproduction in sheep

The productivity and economic prosperity of sheep farming could benefit greatly from more effective methods of selection for year-round lambing. Identification of QTL for aseasonal reproduction in sheep could lead to more accurate selection and faster genetic improvement. One hundred and twenty microsatellite markers were genotyped on 159 backcross ewes from a Dorset × East Friesian crossbred pedigree. Interval mapping was undertaken to map the QTL underlying several traits describing aseasonal reproduction including the number of oestrous cycles, maximum level of progesterone prior to breeding, pregnancy status determined by progesterone level, pregnancy status determined by ultrasound, lambing status and number of lambs born. Seven chromosomes (1, 3, 12, 17, 19, 20 and 24) were identified to harbour putative QTL for one or more component traits used to describe aseasonal reproduction. Ovine chromosomes 12, 17, 19 and 24 harbour QTL significant at the 5% chromosome-wide level, chromosomes 3 and 20 harbour QTL that exceeded the threshold at the 1% chromosome-wide level, while the QTL identified on chromosome 1 exceeded the 1% experiment-wide significance level. These results are a first step towards understanding the genetic mechanism of this complex trait and show that variation in aseasonal reproduction is associated with multiple chromosomal regions.     

Ultrastructural and biochemical seasonal changes in epididymal corpus and cauda of viscacha (Lagostomus maximus maximus)

The reproductive and adaptative behavior of wild rodents is synchronized primarily by the photoperiod. The viscacha, a South American rodent of nocturnal habits and seasonal reproduction is photoperiod‐dependent and its reproductive behavior is regulated by the retinohypothalamic‐pituitary pineal axis. Adult males exhibit an annual reproductive cycle with periods of maximum gonadal activity (summer‐early autumn) and gonadal regression (winter). The corpus and the cauda, the most sensitive segments of the epididymis to changes induced by the photoperiod, were analyzed using electron microscopy and enzymatic biochemistry. During gonadal regression, principal and clear cells showed signs of involution with respect to the activity period. These were characterized by more irregular nuclei, smaller cytoplasms, large vacuoles, altered mitochondria, and glycogen deposits. All cellular populations of the epididymal epithelium in regression presented abundant lysosome‐like dense bodies during the active period. In addition, we measured the activity of four acid glycosidases in the cauda epididymis along the reproductive cycle. N‐acetyl‐β‐D‐glucosaminidase (NAG), an enzyme that degrades endocytosed substances from the epididymal lumen, increased significantly during gonadal regression relative to the active period. These results demonstrate that the viscacha epididymis exhibits significant ultrastructural and biochemical changes during the reproductive cycle. We demonstrate that during regression, melatonin secretion in viscacha increases. This study shows that the epididymal epithelium is reduced. Thus, we postulate that the changes observed in the epididymis are modulated by pineal melatonin. Despite these changes, the epididymis might maintain a microenvironment suitable for the survival of stored spermatozoa. J. Morphol. 2009. © 2009 Wiley‐Liss, Inc.     

哺乳动物季节性繁殖的神经内分泌调节机制

动物的季节性繁殖,是指其繁殖活动从静止到复苏的一个年周期性循环。研究显示,kisspeptin和RFRP对繁殖的季节性变化具有重要作用。非繁殖期最显著的特点是雌激素对GnRH分泌的负反馈效应的增加,而雌激素的这种效应是由kisspeptin神经元传导的。因此,kisspeptin是影响繁殖活动的一个重要因子。RFRP的表达依赖于褪黑激素的分泌并呈现出季节性变化,在非繁殖期对繁殖活动的抑制作用非常明显。此外,甲状腺激素在繁殖期的终止上发挥着至关重要的作用,而多巴胺能神经元A14/A15也促进了雌激素负反馈效应的季节性变化。这些神经元系统通过协同作用一起调节了生殖功能随光周期的季节性转变。文章对繁殖的季节性和这4个神经内分泌系统之间的关系进行了系统的阐述。     

Melatonin rhythms in the pineal and non-pineal tissues and their physiological implications in subtropical fish

Abstract

Melatonin (N-acetyl-5-methoxy tryptamine), following discovery from the extracts of bovine pineal gland, has been detected in the pineal as well as several extra-pineal tissues/organs of different vertebrates including fish. The unique feature of melatonin in the pineal gland is its rhythmic biosynthesis and release in blood in synchronization with the environmental light-–dark cycle. Accordingly, melatonin produced in the pineal of an animal living in a changing environment is implicated to the regulation of seasonal reproduction by acting as a hormone at one or more levels of hypothalamo-hypophyseal-gonadal axis. Additionally, melatonin is known to act as a potent free-radical scavenger or antioxidant to influence maturation of oocytes. However, possible relationship between extra-pineal melatonin and seasonality of reproduction in any animal remains enigmatic. Perhaps, carp is the only known animal in which temporal patterns of melatonin levels in the serum as well as in the extracts of pineal, retina, ovary, gut, and liver have been studied in relation to the reproductive events in an annual cycle. The purpose of current review is to bring those fascinating, and arguably most important data together to underline their significance in the control of seasonal reproduction in subtropical fish in general and in carp in particular.     

哺乳动物季节性繁殖的神经内分泌调节机制

动物的季节性繁殖, 是指其繁殖活动从静止到复苏的一个年周期性循环。研究显示, kisspeptin和RFRP对繁殖的季节性变化具有重要作用。非繁殖期最显著的特点是雌激素对GnRH分泌的负反馈效应的增加, 而雌激素的这种效应是由kisspeptin神经元传导的。因此, kisspeptin是影响繁殖活动的一个重要因子。RFRP的表达依赖于褪黑激素的分泌并呈现出季节性变化, 在非繁殖期对繁殖活动的抑制作用非常明显。此外, 甲状腺激素在繁殖期的终止上发挥着至关重要的作用, 而多巴胺能神经元A14/A15也促进了雌激素负反馈效应的季节性变化。这些神经元系统通过协同作用一起调节了生殖功能随光周期的季节性转变。文章对繁殖的季节性和这4个神经内分泌系统之间的关系进行了系统的阐述。