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1.
Urocortin 1 (UCN) is a 40‐amino acid peptide belonging to the corticotrophin‐releasing hormone (CRH) family. The biological effects of this peptide are modulated by binding two G‐coupled receptors named CRH receptor 1 (CRHR1) and CRH receptor 2 (CRHR2). CRHR2 has high affinity for UCN. The aim of the present study was to investigate the presence and distribution of UCN, CRHR1 and CRHR2 in the epididymis of the South America camelid Alpaca (Vicugna pacos) by Western blotting analysis and immunohistochemistry. Tissue extracts of the organ reacted with the anti‐UCN, anti‐CRHR1 and anti‐CRHR2 antibodies, recognizing in all the cases a single specific protein band. UCN‐ and CRHR2‐immunoreactivities (IRs) were found in the cytoplasm of the principal cells (PCs) of the caput epididymis. A prevalent supranuclear localization of granular‐shaped positive material was observed. CRHR1‐IR was observed in the fibromuscular stromal cells encircling the tubules and in the smooth musculature of the blood vessels throughout the three epididymal segments. In addition, in the cauda, CRHR1‐IR was observed in some apical epithelial cells (ACs) which were morphologically similar to apical mitochondria‐rich cells (AMRCs). These results suggest that UCN, CRHR1 and CRHR2 are expressed in the alpaca epididymis and that CRH‐related peptides might play multiple roles in maturation and storage of spermatozoa.  相似文献   

2.
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3.
Estrogen and its receptors are essential for sexual development and reproduction. Oestrogen receptor alpha (ERα) is a nuclear receptor activated by the hormone oestrogen. In male, ERα is encoded by the gene ESR1 (oestrogen receptor1) responsible for better fertility. ESR1 is involved in the reabsorption of luminal fluid during the transit of spermatozoa from the testis to the head of the epididymis which is important for their survival and maturation during epididymal storage. The absence of ESR1 leads to reduced epididymal sperm content, reduced sperm motility and fertilizing ability. The present study was undertaken to investigate the expression and presence of ESR1 gene in fertile and low-fertile male goat breeds. We identified ESR1 gene through various molecular tools. Genotyping was carried out by high resonance melting analysis using Roche Light Cycler 480(LC-480) system and found three different genotypes. Genotypic frequency-AA (blue-0.67), BB(Red-0.2), AB(Green-0.08) with allele frequency A(0.71 and B (0.29). The predominance of this gene in head of epididymis in fertile bucks was confirmed by SDS-PAGE, Western blotting and immunohistochemistry. From the results, we corroborated that the present study provides a useful and effective way to predict male fertility in goat breeds, which in turn increases the percentage of fertility in flock leading to more number of offspring in a kidding season.  相似文献   

4.
We examined the distribution of the orexin‐like peptides in the pituitary and median eminence of the flat‐tailed house gecko (Hemidactylus platyurus) using immunohistochemistry. Orexin‐B‐like, but not orexin‐A‐like, immunoreactivity was detected in the pituitary, specifically in the pars intermedia, and these cells corresponded to alpha‐melanocyte‐stimulating hormone (αMSH)‐producing cells. Orexin‐B and αMSH secreted from pars intermedia may modulate secretion of adenohypophyseal cells in the pars distalis. In the median eminence, orexin‐B‐immunoreactive puncta and fibres were observed, and these structures corresponded to gonadotropin‐releasing hormone (GnRH)‐immunoreactive puncta and fibres. Orexin‐B secreted from GnRH‐containing neurons in the hypothalamus may affect thyrotropin‐releasing hormone‐containing neurons resulting in modulation of αMSH secretion of melanotrophs in the pars intermedia.  相似文献   

5.
Urocortin (UCN), a 40 amino acid peptide, is a corticotrophin‐releasing hormone (CRH)‐related peptide. The biological actions of CRH family peptides are mediated via two types of G‐protein‐coupled receptors, CRH type 1 (CRHR1) and CRH type 2 (CRHR2). The aim of this study was to investigate the expression of UCN, CRHR1 and CRHR2 by immunoprecipitation, Western blot, immunohistochemistry and RT‐PCR in the bovine thyroid gland. Immunoprecipitation and Western blot analysis showed that tissue extracts reacted with the anti‐UCN, anti‐CRHR1 and anti‐CRHR2 antibodies. RT‐PCR experiments demonstrated that mRNAs of UCN, CRHR1 and CRHR2 were expressed. UCN immunoreactivity (IR) and CRHR2–IR were found in the thyroid follicular and parafollicular cells and CRHR1‐IR in the smooth muscle of the blood vessels. These results suggest that a regulatory system exists in the bovine thyroid gland based on UCN, CRHR1 and CRHR2 and that UCN plays a role in the regulation of thyroid physiological functions through an autocrine/paracrine mechanism.  相似文献   

6.
The aim of the present study was to investigate the presence and the distribution of cells containing orexin A and orexin type 2 receptor in the horse stomach and gut, by means of immunohistochemical techniques.Orexin A was identified in the stomach fundic and pyloric regions and in the duodenum. In the same stomach regions, a large subset of orexin A-positive cells also showed orexin type 2 receptor-like immunoreactivity. Moreover, in the duodenum, many of them, seemed to store serotonin.Characteristically, enteric neurons or ganglia also displayed orexin A and, sometimes, orexin type 2 receptor immunoreaction.Orexin A and orexin type 2 receptor immunoreactivity was also found in the nerve fibers in the enteric submucosal layer.Our results, together with data present in the literature, could contribute to the understanding of complex mechanisms regulating the horse gut functionality that are depending very likely on the consequence of the co-operation of both a central and a peripheral control.  相似文献   

7.
Complementary DNA (cDNA) and the flanking region of insulin‐like growth factor‐I (IGF‐I) of domesticated duck were cloned. The nucleotide sequence analysis of the cDNA showed seven and eight bases different, respectively, from chicken and turkey IGF‐I cDNA within the coding region. The amino acid sequence of prepro IGF‐I differed by one and two amino acids from those observed in chicken and turkey, respectively. However, no amino acid substitution was observed in the mature IGF‐I region. Sequence analysis of the promoter region and exon 1 of the duck IGF‐I revealed a high degree of similarity to that of the chicken IGF‐I gene. These results suggest that the mechanisms which regulate expression of the IGF‐I gene may be widely conserved in avian species.  相似文献   

8.
为研究褪黑素受体1(MT1)在不同年龄绵羊附睾中的表达模式,选用幼龄绵羊(2~3月龄)、青年绵羊(6~8月龄)和成年绵羊(2~3岁)的附睾,采用实时荧光定量PCR和免疫组化技术检测不同年龄绵羊附睾各部位MT1基因mRNA的表达量和MT1的分布情况。结果表明:幼龄绵羊附睾尾MT1基因的转录水平极显著高于附睾头和附睾体(P<0.01);青年绵羊附睾体和附睾尾MT1基因的转录水平显著高于附睾头(P<0.05);成年绵羊附睾尾MT1基因的转录水平显著高于附睾头和附睾体(P<0.05),附睾各部位MT1基因的转录水平随年龄增长呈明显降低趋势;定位结果显示,MT1在各年龄组绵羊附睾的各个部位均有分布,且主要分布在附睾上皮细胞中。综合上述结果,不同年龄绵羊附睾的不同部位均有MT1表达和分布,并随年龄增长各部位的表达量降低,相同年龄绵羊附睾尾MT1的表达水平较高。  相似文献   

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10.
During the last decades, physiological effects of oestrogens have been increasingly explored by scientists and biotechnologists. Estrogens exert a wide range of effects on a large variety of cell types. Oestrogen and its receptors are essential for sexual development and reproduction. Estrogen receptor alpha is a nuclear receptor activated by the hormone oestrogen. In male, ERα is encoded by the gene estrogen receptor gene 1 (ESR1), responsible for better fertility. The ESR1 is involved in the reabsorption of luminal fluid during the transit of spermatozoa from the testis to the head of the epididymis which is important for their survival and maturation during epididymal storage. The absence of ESR1 leads to reduced epididymal sperm content, reduced sperm motility and fertilizing ability. Therefore, this is a good startby to study the expression pattern of estrogen receptor 1 gene in high‐fertile (G1) and low‐fertile (G2) bucks of Jamunapari and Barbari breeds identified on the basis of seminal quality traits and fertility trials. RNA was extracted from the tissues by TRIzol method. The identification and expression pattern of caprine ESR1 gene was analysed by real‐time PCR (Roche LC‐480). Our work shows that the relative quantification by RT‐PCR indicates more fold in head of epididymis as compared to spleen of caprine ESR1 gene. Furthermore, the RT‐PCR indicated that fertile bucks of Jamunapari breed have more fold value as compared to Barbari breed in respect of reproductive organ.  相似文献   

11.
The steroid hormone regulation of the epididymis in a high estrogen producing animal like the boar is not currently understood. To test the hypothesis that the boar epididymis is an estrogen and androgen responsive tissue, the presence of estrogen and androgen receptors, in conjunction with steroid hormone concentrations were investigated in the boar epididymis. Epididymal (caput, corpus, cauda) and testicular samples of boars (1–2.5 years; n = 5) were collected for immunolocalization of estrogen receptor alpha (ER), estrogen receptor beta (ERβ) and androgen receptor (AR). Concentrations of testosterone, estradiol and estrogen conjugates (EC) in the tissue were also determined. AR and ERβ were localized in the principal and basal cells of all three epididymal regions. ER was localized in the principal cells of the caput, some cells of the corpus and was not present in the cauda. Testosterone (p < 0.0001), estradiol (p < 0.0001) and EC (p < 0.005) were significantly lower in the epididymis compared with the testis. The epididymal regions were not significantly different from each other for testosterone (p > 0.15) or estradiol (p > 0.09). EC were significantly higher in the corpus than either the caput (p = 0.003) or cauda (p = 0.002). These results suggest that the boar epididymis is responsive to both estrogens and androgens and that both steroid hormones are important for proper epididymal function. Since testosterone and estradiol concentrations are similar throughout the epididymis, regional differences in steroid hormone regulation are likely due to differences in receptor expression.  相似文献   

12.
The aim of this experiment was to study the expression pattern of taste receptor family 1 subtypes 1 (T1R1) and 3 (T1R3) during epididymal development of Congjiang Xiang pig, and to explore the possible role of these taste receptors in mammalian male reproductive function and its potential medical value. In this study, the differential expressions of T1R1 and T1R3 in epididymis at 4 key developmental periods (neonatal (15 d), peri-puberty (30 d), puberty (60 d) and sexual maturity (180 d)) of Congjiang Xiang pigs were analyzed. RT-qPCR, immunohistochemistry (IHC) and Western blot were used to detect the changes and distribution of the two taste receptors in epididymis of Congjiang Xiang pigs at different ages. The results of RT-qPCR showed that the expression of TAS1R1 and TAS1R3 mRNA increased gradually from neonatal (15 d) to sexual maturity (180 d), and there was a significant difference between each period (P<0.01). The results of Western blot showed that the expression of T1R1/T1R3 protein was the highest on the 180 d and the lowest on the 15 d. The average protein abundance of T1R1/T1R3 was as follows: 180 d > 30 d > 60 d > 15 d. The results of IHC showed that T1R1 and T1R3 proteins were distributed in the epididymis of Congjiang Xiang pigs at 4 periods, in which T1R1 protein was mainly concentrated in epithelial cell membrane, especially in basal and narrow cells, while T1R3 protein was strongly positive in stereocilia, annular vacuoles and spermatozoa. In summary, the expression of T1R1/T1R3 in the epididymis of Congjiang Xiang pigs increased gradually from 15 d to the peak of sexual maturation, which was related to the differential expression of T1R1/T1R3 in epithelial basal cells, narrow cells and stereocilia of epididymis. These special expression patterns were time related to the physiological function of epididymis, so it is speculated that T1R1/T1R3 are involved in the regulation of sperm maturation and storage in epididymis.  相似文献   

13.
T1R1和T1R3在从江香猪附睾发育中的表达模式   总被引:1,自引:0,他引:1  
为研究味觉受体第一家族亚型1(T1R1)和3(T1R3)在从江香猪附睾发育过程中的表达模式,探讨味觉受体在哺乳动物雄性生殖机能中可能发挥的作用及潜在医学价值,本试验以从江香猪附睾组织为研究对象,分析附睾发育4个关键时期:初情前(15 d)、初情时(30 d)、初情后(60 d)和性成熟期(180 d)T1R1与T1R3的差异表达。采用实时荧光定量PCR、免疫组织化学(IHC)和Western blot检测两个味觉受体在不同日龄从江香猪附睾组织中转录、翻译水平的变化及其分布情况。RT-qPCR结果表明:TAS1R1与TAS1R3 mRNA在从江香猪附睾初情前(15 d)至性成熟期(180 d)表达量逐渐增加,且任意两个时期间差异极显著(P<0.01)。Western blot结果显示,T1R1/T1R3蛋白在180 d表达量最高,在15 d表达量最低,两者之间差异显著(P<0.05),平均表达丰度依次为180 d > 30 d > 60 d > 15 d。IHC结果显示,T1R1和T1R3蛋白在各日龄组从江香猪附睾组织均有分布,其中T1R1蛋白主要在上皮细胞膜上,尤其是基细胞和窄细胞;而T1R3蛋白主要在微绒毛、环状空泡和精子呈强阳性表达。综上,本研究发现不同日龄从江香猪附睾的T1R1/T1R3表达从15 d逐渐增加,至性成熟达到峰值,这一表达变化与附睾上皮基细胞和窄细胞及微绒毛的T1R1/T1R3的差异表达有关,这些特殊的表达模式与附睾生理功能存在时间关联,故推测T1R1和T1R3参与附睾内精子成熟和储存的调节过程。  相似文献   

14.
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15.
Kisspeptins and G protein coupled receptor (GPR54) play significant roles in regulating reproductive activity among seasonally reproductive animals; however, the mechanisms of KiSS‐1 and GPR54 gene affecting the seasonal reproduction in striped hamster are still unknown. In this study, real‐time quantitative polymerase chain reaction was employed to examine the expression profiles of KiSS‐1 and GPR54 in the hypothalamus, ovaries, testes, uterus and epididymis of striped hamsters across 4 different seasons. Our results showed that, across different seasons, the KiSS‐1 expression mode of male striped hamsters and the GPR54 expression mode of female striped hamsters were consistent with the seasonal photoperiod in the hypothalamus. Meanwhile, across different seasons, the expression profile of KiSS‐1 in the testes and the GPR54 expression profile of male striped hamsters in the hypothalamus were consistent with the intensity of their seasonal reproductive activity. Among different tissues, the expression trend for GPR54 is consistent across 4 seasons, while that for KiSS‐1 is tissue‐dependent. The expression trend for GPR54 across 4 seasons is the same regardless of gender, while that for KiSS‐1 is dramatically different and sex‐dependent across different seasons. These results suggest that the expressions of KiSS‐1 and GPR54 in the striped hamsters were regulated by complicated mechanisms, and the regulatory mechanisms in the striped hamsters are seasonal‐dependent and sex‐dependent. This research will provide a theoretical basis for studying how KiSS‐1 and GPR54 affect seasonal reproduction and the mechanisms behind their influence.  相似文献   

16.
牦牛睾丸附睾LDH同工酶表达模式的研究   总被引:3,自引:0,他引:3  
利用比色法和聚丙烯酰胺凝胶电泳技术对6、12、18、24月龄半血野牦牛,横交半血野牦牛和家牦牛睾丸、附睾组织LDH同工酶活性及谱带表达进行测析。结果表明,睾丸、附睾LDH在相同月龄其表达模式不同,6月龄睾丸LDH有四条酶谱,活性百分率依次(LDH1〉LDH3〉LDH2〉LDH4)附睾只有三条酶谱(LDH1〉LDH2〉LDH3);到12、18月龄时,睾丸LDH有五条酶谱(LDH1〉LDH3〉LDH4  相似文献   

17.
The carboxylesterase cauxin is a major urinary protein in cats that is also found in seminal fluid (SF). This study investigated cauxin in feline SF including biochemical features, concentration, distribution and gene expression in epididymal tissue, and its reaction with acylglycerol substrates.Monomeric, dimeric, and/or multimeric forms of cauxin carrying N-glycosylations were detected on Western blots of feline SF but most were monomeric. Cauxin concentrations were markedly lower in SF (0.042 ± 0.020 mg/mL) than in urine (∼0.5 mg/mL) and cauxin gene expression was 60-fold lower in the epididymis than in the kidney. Immunohistochemical examination localised cauxin within the stereocilia and cytoplasm of epithelial cells lining the caput and corpus epididymis. Cauxin-positive spermatozoa were detected in the lumen of the cauda epididymis but not in the cytoplasm of the epithelial cell lining. Using an in vitro assay, cauxin hydrolysed saturated 1-mono- but not di- and tri-acylglycerols. The results suggest that cauxin secreted from the caput and corpus epididymis acts as an esterase on lipid within feline SF.  相似文献   

18.
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19.
Cancer‐testis antigens (CTAs) are a category of self proteins aberrantly expressed in diverse malignancies, mostly solid tumours, due to epigenetic de‐repression. Normally expressed only in fetal or gametogenic tissues, CTAs are tantalizing immunotherapy targets, since autoimmunity risks appear minimal. Few prevalent CTAs have been identified in human hematologic cancers, and just two in their veterinary counterparts. We sought to discover new CTAs in canine hematologic cancers such as histiocytic sarcoma (HS) and lymphoma to foster immunotherapy development. To accomplish this, the ligandome binding the dog leukocyte antigen (DLA)‐88*508:01 class I allele overexpressed in an HS line was searched by mass spectrometry to identify possible CTA‐derived peptides, which could serve as CD8+ T‐cell epitopes. Twenty‐two peptides mapped to 5 human CTAs and 12 additional proteins with CTA characteristics. Expression of five promising candidates was then evaluated in tumour and normal tissue by quantitative and end‐point RT‐PCR. The ortholog of an established CTA, IGF2BP3, had unexpectedly high expression in peripheral blood mononuclear cells (PBMCs). Four other testis‐enhanced proteins were also assessed. AKR1E2, SPECC1 and TPX2 were expressed variably in HS and T‐cell lymphoma biopsies, but also at high levels in critical tissues, including kidney, brain and marrow, diminishing their utility. A more tissue‐restricted candidate, NT5C1B, was detected in T‐cell lymphomas, but also at low levels in some normal dog tissues. These results illustrate the feasibility of discovering canine CTAs by a reverse approach, proceeding from identification of MHC class I‐presented peptides to a comparative RNA expression survey of tumours and normal tissues.  相似文献   

20.
Galectin-3, a member of the β-galactoside-binding protein family, has been implicated in mammalian sperm maturation. We examined galectin-3 expression in the testis and epididymis of sexually mature and immature bulls. Western blot analysis showed varying levels of galectin-3 in the bull testis and epididymis, and galectin-3 immunoreactivity was higher in the mature testis and epididymis than in immature organs. Galectin-3 was primarily localized in interstitial cells of the immature bull testis and in the peritubular myoid and interstitial cells of the mature testis. In the immature epididymis head, galectin-3 was primarily in the principal and basal cells of the epithelium. In the mature epididymis head, moderate levels of galectin-3 were detected in the sperm, while low levels were found in the stereocilia, epithelium and connective tissue. In the immature epididymis body, moderate protein levels were detected in the principal cells, while lower levels were found in the basal cells. The mature epididymis body showed moderate levels of galectin-3 immunostaining in the stereocilia and epithelium, but low levels in the connective tissue. In the immature epididymis tail, only low levels of galectin-3 staining were found in the epithelium, whereas the mature epididymis tail showed high levels of galectin-3 in the principal cells, moderate levels in the basal cells and low levels in connective tissue. These findings suggest that galectin-3 expression plays a role in the maturation and activation of sperm in bulls.  相似文献   

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