首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Four different aquaporins (AQP1, 2, 5 and 9), integral membrane water channels that facilitate rapid passive movement of water, were immuno‐localized in the excurrent ducts collected from sexually mature cats during orchiectomy. Aquaporins 1, 2 and 9, were immuno‐localized at distinct levels, whereas AQP5 was undetectable all along the feline genital tract. No immunoreactivity was present at the level of the rete testis with any of the antibodies tested. In the efferent ducts, AQP1‐immunoreactivity was strongly evidenced at the apical surface of the non‐ciliated cells, and AQP9‐immunoreactivity was shown at the periphery of both ciliated and non‐ciliated cells. Aquaporins 2 was absent in the caput epididymidis, either in the efferent ducts or in the epididymal duct. Otherwise, AQP2 was increasingly localized at the adluminal surface of principal cells from the corpus to the cauda epididymidis and more weakly in the vas deferens epithelium. The supranuclear zone of the epididymal principal cells was AQP9‐immunoreactive throughout the duct, with the exclusion of the vacuolated sub‐region of the caput and with higher reaction intensity in the cauda region. AQP1 was present in the blood vessels all along the genital tract. AQP1 was expressed also in the smooth muscle layer of the vas deferens. The tested AQP molecules showed a different expression pattern in comparison with laboratory mammals, primates and the dog, unique other carnivore species studied to date. The present information is possibly useful in regard to the regional morphology of the feline epididymis and correlated functions, which are still a matter of debate.  相似文献   

2.
Aquaporins (AQPs) are channel proteins that facilitate the transepithelial and bidirectional movement of water. AQP9 is an aquaporin that is expressed in the mammalian epididymis. This water transport contributes to epididymal sperm concentration. This study aimed to examine the morphology of epididymal epithelium in piglets and boars, as well as the expression and immunolocalization of AQP9. The piglets presented an epididymal epithelium in differentiation with principal, basal and apical cells. The cellular population of the epididymal epithelium in boars consisted of principal, basal, apical, clear and narrow cells. The migratory cells known as halo cells were observed in the epididymis of both piglets and boars. AQP9 expression presented differences between piglets and boars. Moderate intensity of AQP9 immunoreaction was observed in the apical border of the epididymal epithelium of the caput and cauda regions in the piglet epididymis. A moderate‐to‐intense reaction for AQP9 was observed in the nuclei of epithelial cells of the three epididymal regions in the boar epididymis. The region of the cauda epididymis showed reactivity for AQP9 also in the apical border of the epithelium. It is believed that the AQP9 is already functional in piglets at only 1 week of age and is more active, playing a pivotal role in the caput and cauda regions of the epididymis. Moreover, the intense AQP9 expression in the apical border of epithelial cells in the cauda region of the boar epididymis suggests a higher performance of AQP9 in this region, where sperm complete their maturation process, stored and concentrated.  相似文献   

3.
Aquaporins (AQPs), a family of small membrane-spanning proteins, are involved in fluid transport, cell signalling and reproduction. Regulating AQP8 expression influences apoptosis of granulosa cells (GCs), ovarian folliculogenesis, oogenesis and early embryonic development in mice, but its role has never been investigated in other species. The aim of the present study was to characterize the AQP8 function in buffalo follicular development. The expression pattern of AQP8 in buffalo follicle was analysed by immunohistochemistry method. 17β-Estradiol (E2) or oestrogen receptor antagonist ICI182780 was used to treat GCs cultured in vitro, and the expression of AQP8 was detected using qRT-PCR. Its roles in apoptosis of buffalo GCs were investigated by shRNA technology. AQP8 was found to be expressed higher in secondary follicles (p < .05), and its mRNA level in GCs was upregulated by E2 via receptor-mediated mechanism in a dose-dependent manner. A 732-bp buffalo AQP8 coding region was obtained, which was highly conserved at the amino acid level among different species. AQP8-shRNA2 had more effective inhibition on target gene than AQP8-shRNA1 (66.49% vs. 58.31%) (p < .05). Knockdown of AQP8 induced GCs arrested at G2/M stage and occurred apoptosis. Compared with the control group, higher Caspase9 expression were observed in AQP8-shRNA2 lentivirus infected GCs (p < .05), while Bcl-2 and Bax expression levels had no obvious change (p > .05). Altogether, the above results indicate that AQP8 is involved in oestrogen-mediated regulation of buffalo follicular development by regulating cell cycle progression and apoptosis of GCs.  相似文献   

4.
The expression of six different aquaporins (AQP1, 2, 3, 4, 5 and 9), integral membrane water channels that facilitate bi‐directional passive movement of water, was investigated by immunohistochemistry in the uterine tube of pre‐pubertal and adult Saanen goats (Capra hircus), comparing the different phases of the oestrous cycle. Regional morphology and secretory processes were markedly different during the goat oestrous cycle. The tested AQP molecules showed different expression patterns in comparison with already studied species. AQP1‐immunoreactivity was evidenced at the endothelium of blood vessels and in nerve fibres, regardless of the tubal tract and cycle period. AQP4‐immunoreactivity was shown on the lateral plasmalemma in the basal third of the epithelial cells at infundibulum and ampulla level in the cycling goats, more evidently during follicular than during luteal phase. No AQP4‐immunoreactivity was noticed at the level of the isthmus region, regardless of the cycle phase. AQP5‐immunoreactivity, localized at the apical surface of epithelial cells, increased from pre‐puberty to adulthood. Thereafter, AQP5‐immunoreactivity was prominent during the follicular phase, when it strongly decorated the apical plasmalemma of all epithelial cells at ampullary level. During luteal phase, immunoreactivity was discontinuous, being weak to strong at the apex of the secretory cells protruding into the lumen. In the isthmus region, the strongest AQP5‐immunoreactivity was seen during follicular phase, with a clear localization in the apical plasmalemma of all the epithelial cells and also on the lateral plasmalemma. AQP2, 3 and 9 were undetectable all along the goat uterine tube. Likely, a collaboration of different AQP molecules sustains the fluid production in the goat uterine tube. AQP1‐mediated transudation from the blood capillaries, together with permeation of the epithelium by AQP4 in the basal rim of the epithelial cells and final intervening of apical AQP5, could be involved in fluid production as well as in secretory processes.  相似文献   

5.
Aquaporins (AQPs) are essential membrane protein channels for the transport of water across membranes. Fluid movement in the epididymis is important for modulation of the luminal environment, in which sperm mature and reside. This study was designed to understand the morphology and localization of AQPs in ram efferent ducts (ED) and epididymis. For this purpose, the epididymis of seven animals were removed for histologic and immunohistochemical analyses. AQP1 immunoreactivity was observed in the apex of the ED, and AQP9 was found adjacent to the nuclei of the epithelial cells of the ED. The epithelial lining of ram epididymis is pseudostratified columnar and presents principal, basal, apical and narrow cells. In the initial segment (IS), a moderate reaction for AQP1 was observed in the apical cytoplasm of epithelial cells. An intense reactivity for AQP1 was noted over the microvilli of principal cells and in spermatozoa in the caput. In the corpus and cauda, AQP1 was noted only over the endothelial cells of vascular channels located in intertubular spaces. A weak‐to‐moderate reaction for AQP9 was observed in the nuclei of epithelial cells in the IS, caput and corpus of the epididymis. In the cauda, an intense reaction to AQP9 was observed in the epithelial border. In the IS, caput and corpus, the reactivity for AQP9 differed from those observed in domestic animals. The cauda showed a pattern similar to that previously described. These results indicate that AQPs 1 and 9 have reversed locations and roles in rams, suggesting activity variations related with fluid and solute absorption throughout the epididymis.  相似文献   

6.
The expression of 12 different aquaporin subtypes in equine endometrium was examined at the mRNA and protein level. Endometrial samples were obtained during anoestrus, oestrus, 8, and 14 days after ovulation in non‐pregnant mares, and 14 days after ovulation in pregnant mares. Quantitative PCR revealed a time‐dependent pattern for all aquaporin subtypes examined except for AQP10 and 12. AQP3, 5 and 7 showed highest mRNA abundance 8 days after ovulation, while AQP0 and 2 were most abundant at Day 14 of the cycle in non‐pregnant mares. At 14 days of pregnancy, AQP1, 4, 8, 9 and 11 displayed highest expression levels. Western blot analysis confirmed protein expression of AQP0, 2 and 5. Immunohistochemistry localized protein expression to luminal and glandular epithelial and stromal cells. AQP0 staining intensity was highest in samples obtained on Day 14 of the oestrous cycle. AQP2 immunoreactivity seemed to be stronger in samples collected 14 days after ovulation from non‐pregnant animals, in particular luminal epithelial staining. Samples collected 8 days after ovulation from cyclic animals were characterized by intense AQP5 staining of glandular epithelium, predominantly in the deeper glands. Progesterone treatment of anoestrous mares did not enhance expression of AQPs, indicating that factors other than progesterone are required for the up‐regulation of certain AQP subtypes during dioestrus. In conclusion, it seems that an equine‐specific collaboration of aquaporin subtypes contributes to changes in endometrial fluid content occurring throughout the oestrous cycle and contributes to endometrial receptivity during early pregnancy in the mare.  相似文献   

7.
Freezing of boar spermatozoa includes the cryoprotectant glycerol, but renders low cryosurvival, owing to major changes in osmolarity during freezing/thawing. We hypothesize that aquaporins (AQPs) 7 and 9 adapt their membrane domain location to these osmotic challenges, thus maintaining sperm homeostasis. Western blotting (WB) and immunocytochemistry (ICC) at light and electron microscope levels with several commercial primary antibodies and protocols explored AQP location on cauda epididymal and ejaculated spermatozoa (from different fractions of the ejaculate), unprocessed, extended, chilled and frozen‐thawed. Although differences in WB and ICC labelling were seen among antibodies, AQP‐7 was conspicuously located in the entire tail and cytoplasmic droplet in caudal spermatozoa, being restricted to the mid‐piece and principal piece domains in ejaculated spermatozoa. AQP‐9 was mainly localized in the sperm head in both caudal and ejaculated spermatozoa. While unaffected by chilling (+5°C), freezing and thawing of ejaculated spermatozoa clearly relocated the head labelling of AQP‐7, but not that of AQP‐9. In vitro mimicking of cell membrane expansion during quick thawing maintained the localization of AQP‐9 but relocated AQP‐7 towards the acrosome. AQP‐7, but not AQP‐9, appears as a relevant marker for non‐empirical studies of sperm handling.  相似文献   

8.
  相似文献   

9.
This study aims to investigate the role of matrix metalloproteinases (MMPs) in determining semen quality and to evaluate the expression and cellular localization of MMP‐2, MMP‐9, tissue inhibitor of metalloproteinase‐1 (TIMP‐1) and TIMP‐2 in the testes, epididymis and ejaculated spermatozoa. Gelatinase activities between normal (n = 21) and abnormal (n = 25) semen samples showed a significant, sixfold increase in proMMP‐2 and MMP‐2 activity in high than low sperm concentration samples (p < 0.001). ProMMP‐9 and MMP‐9 levels were significantly elevated in samples with low sperm counts compared to those with high sperm density (p < 0.001). High levels of proMMP‐2 and MMP‐2 were associated with high sperm motility (≥70%, p < 0.001). Sperm‐rich fraction showed significantly (eight‐fold) higher proMMP‐9 enzymatic activity compared with prostatic fraction. The mRNA expressions of MMP‐2, MMP‐9, TIMP‐1 and TIMP‐2 were confirmed in testicular and epididymal tissues. Immunohistochemical staining illustrated the MMP‐2‐specific strong immunoreactivity in the head of mature spermatids during spermatogenesis, whereas MMP‐9, TIMP‐1 and TIMP‐2 were absent in these cells. Matrix metalloproteinase‐9 immunoreactivity was observed in the spermatocyte and round spermatid, whereas TIMP‐1 was only exhibited in the residual bodies. Immunolabeling of epididymal and ejaculated sperm demonstrated MMP‐2 localization along acrosomal region of sperm, while MMP‐9, TIMP‐1 and TIMP‐2 localization was merely limited to the flagella. In conclusion, spermatozoa initially acquire MMP‐2 during their formation at testicular level, and the presence of this protein persists through the epididymal transit and up to ejaculate. The enzymatic activity of MMP‐2 and MMP‐9 may serve as an alternative biomarker in determining semen quality.  相似文献   

10.
This study was undertaken to detect pregnancy in Iraqi riverine buffalo (Bubalus bubalis) using three different methods (rectal palpation, plasma progesterone concentration and detection of the presence of pregnancy‐specific protein B (PSPB) with the BioPRYN® enzyme‐linked immunosorbent assay (ELISA) test. The aim of the study was to identify the most sensitive, early and accurate method for detecting pregnancy. Twenty‐two female riverine buffalo that were 6.0 ± 0.93 years old were used. Four blood samples per buffalo were taken via jugular venipuncture at days 22–24, 32–34, 42–44 and 58–61 post‐mating (PM) to measure the progesterone concentration (ng/ml) and to detect the presence of plasma PSPB. The rectal palpation method was employed to evaluate all buffalo on days 42–44 and 58–61 PM. The BioPRYN® test differed (p < 0.01) from the other tests with earlier accuracy for detecting pregnant and non‐pregnant buffalo. Eighty‐eight percent of pregnant and 76.9% of non‐pregnant buffalo were distinguished early (days 22–24 PM) using BioPRYN® and plasma PSPB‐ELISA level (2.09 ± 0.12 ng/ml) in relation to 66.7% and 53.9% detected using the progesterone assay at similar days (4.30 ± 0.40 ng/ml). In conclusion, these results described, for the first time, the early and accurate pregnancy detection of water riverine buffalo using BioPRYN® technology and provided the plasma levels of PSPB using an ELISA test. These findings will improve the reproductive and productive efficiency of Iraqi riverine buffalo by adapting the recent management and reproductive strategies in Iraq and in the world.  相似文献   

11.
Contents: The periodic acid-Schiff (PAS) reactive materials of epididymal and ejaculated spermatozoa have been studied in Friesian bulls, buffalo bulls, rams and camels. In the four species, the cytoplasmic droplets displayed strong PAS reaction which did not appear to change markedly during epididymal transit. Only in ram a slight reduction was noted in cauda epididymal and vas deferens spermatozoa. In Friesian bulls, the acrosomes of epididymal spermatozoa exhibited moderate PAS reaction which increased on passage to the vas deferens and after ejaculation. In the buffalo the reaction increased in cauda epididymal and vas deferens spermatozoa but returned again to mderate on ejaculation. In the camel the acrosomes of caput spermatozoa showed strong reaction which was sharply reduced on passage beyond. Meanwhile in rams the acrosomes of spermatozoa obtained from any level of the genital tract exhibited weak PAS reaction. The postnuclear reagions, middle pieces and tails of bull, buffalo, ram and camel spermatozoa showed varying degrees of PAS reaction. The pattern of change during transit of spermatozoa differed from species to another which might be related to the nature of maturational processes. Inhalt: PAS-reaktive Polysaccharide in Saugetierspermien wahrend der Passage durch den Nebenhoden PAS-positive Reaktionen von Nebenhodenspermien und ejakulierten Spermien wurden an Friesian- und Büffelbullen, Schafböcken und Kamelhengsten untersucht. In allen 4 Spezies zeigten die Cytoplasmatröpfchen starke Reaktion, die sich wahrend der Nebenhodenpassage nicht merklich veränderte. Nur beim Schafbock wurde eine geringfügige schwächere Reaktion bei Spermien aus dem Nebenhodenschwanz und dem Vas deferens beobachtet. Bei Friesianbullen zeigte das Akrosom der Nebenhodenspermien eine mittelstarke PAS-Reaktion, die nach Passage durch den Samenleiter und nach der Ejakulation weiter verstarkt war. Beim Büffel war die Reaktion in der Cauda und Vas deferens verstarkt, in ejakulierten Spermien aber wieder schwächer. Beim Kamel war das Akrosom der Caput-Spermien stark positiv, bei der nachfolgenden Passage nahm die Reaktion deutlich ab. Das Akrosom der Schafspermien war in allen Organabschnit-ten nur schwach angefärbt. Bei allen vier untersuchten Spezies zeigten die anderen Spermienbereiche (postnukleare Region, Mittelstück, Schwanz) sehr unterschiedliche Reaktionen. Die Veränderungen während er Nebenhodenpassage waren zwischen den Spezies unterschiedlich und vermutlich abhängzg von Unterschieden in den Reifungsprozessen.  相似文献   

12.
Aquaporins (AQPs) are members of a large family of integral membrane proteins involved in the rapid movement of water and neutral solutes across cell membranes. In this study, we have prepared an affinity-purified porcine-specific polyclonal antiserum to AQP9 and have investigated the distribution and expression of AQP9 in pig liver tissue and in hepatocytes in primary culture. Immunocytochemical analysis showed that AQP9 was primarily localized in the membrane structures of hepatocytes and was not associated with intrahepatic bile ducts or blood vessels. Western blot analysis indicated that AQP9 ranged in apparent molecular mass between 27 and 38 kD in whole liver and hepatocyte membrane fractions; minor components were also observed at approximately 34 kD in the cytosol compartment of hepatocytes, bile duct and gall bladder. A prominent immunoreactive band at 44 kD was shown to be an artifact of Western blot analysis. In primary cultures of porcine hepatocytes, glucagon enhanced absolute levels of AQP9 protein, while gene expression was enhanced by T3 and glucagon. Insulin alone had no discernable influence on AQP9 gene expression or its cellular protein levels. These data suggest that AQP9 is a major AQP in porcine hepatic tissue and appears to be primarily responsive to glucagon induction.  相似文献   

13.
This study examined the presence of immunoreactivity and mRNA for different nitric oxide synthase (NOS) isoforms in immature and in vitro matured oocytes and in embryos at two‐, four‐ and eight‐cell, and morula and blastocyst stages in buffalo. Oocytes obtained from slaughterhouse buffalo ovaries were subjected to in vitro maturation in TCM‐199 + 10% FBS + 5 μg/ml pFSH + 1 μg/ml estradiol‐17β + 0.81 mm sodium pyruvate + 10% buffalo follicular fluid + 50 μg/ml gentamycin sulphate for 24 h in a CO2 incubator (5% CO2 in air) at 38.5°C. Following in vitro fertilization carried out by incubating them with 2–4 million spermatozoa/ml for 18 h, the presumed zygotes were cultured in mCR2aa medium containing 0.6% BSA and 10% FBS for up to 8 days post insemination. Immunofluorescence staining of NOS using antibodies that cross‐reacted either with all the NOS isoforms i.e., universal (uNOS) or specifically with inducible (iNOS) or endothelial (eNOS) isoforms revealed that NOS was present in oocytes and embryos at all the stages examined. Examination of the semi‐quantitative expression of NOS genes by RT‐PCR revealed that the iNOS, eNOS and nNOS mRNA was present in the immature and mature oocytes and in all the embryonic stages examined. In conclusion, it was demonstrated in the present study that immunoreactivity and mRNA for different NOS isoforms was present in buffalo oocytes and pre‐implantation stage embryos.  相似文献   

14.
Water transport across epithelial cells that line the airways and alveoli is a crucial component of lung physiology. Aquaporins (AQPs) facilitate water transport across the air space–capillary barrier in the distal lung. However, the roles of lung AQPs in desert animal adaptation to dry airstream environments are still unclear. A hare (Lepus yarkandensis) only lives in the Tarim Basin, and its living environment is an arid climate with rare precipitation. We studied cellular localization and expression levels of AQP1, AQP3, AQP4 and AQP5 in L. yarkandensis lungs by immunohistochemistry, quantitative real-time polymerase chain reaction and Western blot. The lung of rabbits (Oryctolagus cuniculus) that inhabit in mesic environment was similarly studied. Obtained results in two species of animals were compared to investigate whether AQPs in the lung altered expression in the animal living in arid region. AQP1 was localized to the endothelial cells in capillaries and venules surrounding terminal bronchioles and alveoli. AQP5 was localized to the ciliated columnar cells in terminal bronchioles and the alveolar type I cells in the alveolus. Quantitative real-time PCR analysis showed higher AQP1 and AQP5 mRNA levels in L. yarkandensis compared to O. cuniculus. Similar results were obtained by Western blot. These results revealed that the higher expression levels of AQP1 and AQP5 played a significant role in water transport in the lungs of arid-desert living L. yarkandensis and might accelerate water transport from capillary compartments to the airspace.  相似文献   

15.
  相似文献   

16.
本研究旨在对水牛水通道蛋白9 (aquaporins 9,AQP9) 基因进行克隆,并对其在水牛不同组织中的表达规律及其在水牛卵巢和睾丸组织中的表达差异进行探索。根据GenBank上黄牛AQP9基因序列(登录号:NM_001205833.1)设计特异性引物,以水牛睾丸组织cDNA为模板,应用RT-PCR方法扩增AQP9基因编码区片段;运用生物信息学方法分析其核苷酸序列的保守性和氨基酸的理化性质;应用实时荧光定量PCR技术分析AQP9基因在水牛组织中的表达情况;免疫组织化学方法分析AQP9蛋白在不同发育阶段水牛卵泡及睾丸组织中的表达差异。结果表明,克隆获得了888 bp的水牛AQP9基因编码区序列,其编码295个氨基酸。多重序列比较显示,水牛AQP9核苷酸序列与牛、猪、绵羊和人相应序列相似性分别为99%、90%、97%、88%;氨基酸序列的同源性分别为99%、86%、97%、83%,系统进化树分析结果推测,AQP9基因在物种进化过程中具有高度保守性。实时荧光定量PCR结果显示,AQP9基因在水牛肝脏、肺脏、大脑、皮肤、睾丸和卵巢组织中有不同程度的表达,在肝脏组织中表达最高,皮肤和睾丸次之,肺脏和卵巢表达较低。免疫组化结果显示,在卵巢组织中,AQP9蛋白表达随卵泡发育时期的不同而变化,并随着卵泡发育其表达逐渐增强;在睾丸组织中,AQP9蛋白在各级精母细胞和间质细胞中均有表达。结果提示,成功克隆得到水牛AQP9基因序列;AQP9在水牛卵巢和睾丸中的表达及其功能可能与水牛卵泡发育和精子发生有重要的关联。  相似文献   

17.
Cloning buffalo AQP9 gene and analyzing its expression in buffalo tissues.A pair of primers was designed according to the released bovine AQP9 sequences in GenBank,which was used to clone buffalo AQP9 gene.The AQP9 gene was amplified by RT-PCR,whose nucleotide sequence and protein structure were analyzed by bioinformatics methods.The expression of AQP9 in buffalo tissues was assayed by Real-time quantitative PCR.The expression of AQP9 gene in buffalo ovary and testis tissue was detected by immunohistochemical staining method.The results showed that the cloned ORF length of buffalo AQP9 gene was 888 bp,which coded 295 amino acids.The results of multiple sequence comparison showed that the nucleotide sequence of buffalo AQP9 shared 99%,90%,97% and 88% homologeous compared with that of Bos taurus,Sus scrofa,Ovis ariessis and Homo sapiens,respectively,while shared 99%,86%,97%,83% homologeous for amino acids,respectively.Phylogenetic tree analysis indicated that AQP9 gene was highly conservative in the evolutionary process.Real-time quantitative PCR results showed that AQP9 gene expressed in buffalo liver,lung,brain,skin,testis and ovary tissues with different levels,had the most abundant expression in liver,followed by in skin and testis,less observed in lung and ovary.The results of immunohistochemical staining showed that the expression of AQP9 protein varied with the development of buffalo ovarian tissue,and gradually enhanced with follicle development.In testicular tissue,AQP9 protein expressed in spermatocyte and leydig cells of developmental stage testis.These results indicated that we had successfully cloned buffalo AQP9 gene sequences.The expression and its function of AQP9 in buffalo ovaries and testes might play an important role in follicle development and spermatogenesis.  相似文献   

18.
Endometrial expression of oestrogen receptor‐α (ERα), progesterone receptor (PR) and cyclooxigenase‐2 (COX‐2) was evaluated in non‐pregnant and pregnant llamas during the period when luteolysis/maternal recognition of pregnancy is expected to occur. Females (n = 28) were divided into two groups: non‐pregnant llamas were induced to ovulate with a Buserelin injection, and endometrial biopsies were obtained on day 8 (n = 5) or 12 (n = 5) post‐induction of ovulation. Animals of the pregnant group (n = 18) were mated with a fertile male. Pregnancy was confirmed by the visualization of the embryo collected by transcervical flushing in 5 of 9 animals on day 8 post‐mating and by progesterone profile on day 12 post‐mating in 4 of 9 animals, when endometrial biopsies were obtained. An immunohistochemical technique was used to evaluate receptors population and COX‐2 expression. Pregnant llamas showed a higher percentage of positive cells and stronger intensity for ERα than for non‐pregnant llamas in stroma on day 8 and in the luminal epithelium on day 12 post‐induction of ovulation, while a deep decrease in endometrial PR population was reported in pregnant llamas on that day in luminal and glandular epithelia and stroma. In the luminal epithelium, COX‐2 expression was lower in pregnant than in non‐pregnant animals. Briefly, the increase of ERα in pregnant llamas gives further support to the hypothesis that oestrogens are involved in the mechanism of maternal recognition of pregnancy. Endometrial PR decrease in pregnant llamas might be a necessary event to allow the expression of proteins involved in conceptus attachment, a mechanism widely accepted in other species. Moreover, embryo seems to attenuate maternal PGF2α secretion during early pregnancy by decreasing the endometrial expression of COX‐2 in the luminal epithelium of pregnant llamas.  相似文献   

19.
The polymorphism of several genes has been shown to affect the milk composition traits in dairy cattle, including DGAT1‐exon8 K232A, GH‐intron3 MspI, GH‐exon5 AluI, GHR‐exon8 F279Y, PRL‐exon3 RsaI and PRLR‐exon3 S18N. However, the polymorphism and effects of these genes on the milk traits of water buffalo are still unclear. In this study, four DNA pooling samples from Murrah, Nili‐ravi, Murrah‐Nili‐Swamp crossbreed and Chinese swamp buffalo were constructed, respectively, and polymorphism of these sites was investigated using PCR–Single‐strand conformation polymorphism and sequencing. Twenty‐eight inter‐specific single‐nucleotide polymorphism (SNPs) were found in these six assayed gene fragments between buffalo and dairy cattle, including nine intra‐specific SNPs among buffalo groups. All buffalo fixed a K allele genotype in DGAT1‐exon8, MspI+ restriction site(c nucleotide) and AluI+ site(c nucleotide) at intron3 and exon5 of GH gene, F allele genotype of F279Y mutation in GHR gene, RsaI? restriction site at PRL‐exon3/exon4 and N allele genotype of S18N mutation at PRLR‐exon3. It provides an indirect evidence that water buffalo have fixed alleles with genotypes reported in dairy cattle, which is thought to be responsible for high milk fat, high protein content and low milk yield. Moreover, three new intra‐specific SNPs were found including 275th bp (c/t) in DGAT1 of Murrah buffalo, 109th bp (t/a) in PRL‐exon3/exon4 and 43rd bp (c/t) in PRLR‐exon3 of Chinese swamp buffalo. Information provided in this study will be useful in further studies to improve buffalo breeding for better lactation performances.  相似文献   

20.
Objective Determine the effects of matrix metalloproteinases (MMPs)‐2, ‐9, macrophage inflammatory protein‐2 (MIP‐2), tissue inhibitors of matrix metalloproteinase (TIMP)‐1 and ‐2 by immunohistochemical expression in fungal affected and purulonecrotic corneas. Procedure Paraffin‐embedded equine corneal samples; normal (n = 9), fungal affected (FA; n = 26), and purulonecrotic without fungi (PN; n = 41) were evaluated immunohistochemically for MMP‐2, ‐9, MIP‐2, TIMP‐1 and ‐2. The number of immunoreactive inflammatory cells was counted and statistics analyzed. Western blot was performed to detect MMP‐2, MMP‐9, TIMP‐1 and TIMP‐2 proteins. Results Matrix metalloproteinases‐2, ‐9, MIP‐2, TIMP‐1 and ‐2 immunoreactivity was identified in corneal epithelium of normal corneas, and in corneal epithelium, inflammatory cells, keratocytes, and vascular endothelial cells of both FA and PN samples. Inflammatory cell immunoreactivity was significantly higher in FA and PN samples than in the normal corneas. There was positive correlation between MMP‐2 and MIP‐2, MMP‐9 and MIP‐2, and MMP‐9 and TIMP‐1 in inflammatory cell immunoreactivity in FA samples. There was positive correlation between MMP‐9 and MIP‐2, MMP‐9 and TIMP‐2, MIP‐2 and TIMP‐1, and MIP‐2 and TIMP‐2 in inflammatory cell immunoreactivity in PN samples. Western blot confirmed the presence of all four proteins in equine corneal samples. Conclusion Increased immunoreactivity of MMP‐2 and ‐9 in FA and PN samples is indirectly related to MIP‐2 through its role in neutrophil chemo‐attraction. Tissue inhibitors of matrix metalloproteinase‐1 and TIMP‐2 are up‐regulated in equine purulonecrotic and fungal keratitis secondary to MMP‐2 and MMP‐9 expression. The correlation between MMPs ‐2 and ‐9, MIP‐2, TIMPs ‐1 and ‐2 suggests that these proteins play a specific role in the pathogenesis of equine fungal keratitis.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号