Expression In Reproductive Organs Research Articles

Genome-wide molecular evolution analysis of the GRF and GIF gene families in Plantae (Archaeplastida)

BackgroundPlant growth-regulating factors (GRFs) and GRF-interacting factors (GIFs) interact with each other and collectively have important regulatory roles in plant growth, development, and stress responses. Therefore, it is of great significance to explore the systematic evolution of GRF and GIF gene families. However, our knowledge and understanding of the role of GRF and GIF genes during plant evolution has been fragmentary.ResultsIn this study, a large number of genomic and transcriptomic datasets of algae, mosses, ferns, gymnosperms and angiosperms were used to systematically analyze the evolution of GRF and GIF genes during the evolution of plants. The results showed that GRF gene first appeared in the charophyte Klebsormidium nitens, whereas the GIF genes originated relatively early, and these two gene families were mainly expanded by segmental duplication events after plant terrestrialization. During the process of evolution, the protein sequences and functions of GRF and GIF family genes are relatively conservative. As cooperative partner, GRF and GIF genes contain the similar types of cis-acting elements in their promoter regions, which enables them to have similar transcriptional response patterns, and both show higher levels of expression in reproductive organs and tissues and organs with strong capacity for cell division. Based on protein–protein interaction analysis and verification, we found that the GRF–GIF protein partnership began to be established in pteridophytes and is highly conserved across different terrestrial plants.ConclusionsThese results provide a foundation for further exploration of the molecular evolution and biological functions of GRF and GIF genes.

Impact of Perinatal Coexposure to Chlorpyrifos and a High-Fat Diet on Kisspeptin and GnRHR Presence and Reproductive Organs.

Emerging evidence has indicated the involvement of extrahypothalamic Kisspeptin and GnRHR in reproductive function. In this study, we evaluate if maternal exposure to the pesticide chlorpyrifos (CPF) and/or a high-fat diet (HFD) has an impact on the expression of Kisspeptin and GnRHR in the reproductive organs of rats' offspring. A total of 16 pregnant rats are divided into four groups: a control group (n = 4), CPF group (4 rats exposed daily to 1/mg/kg/day), HFD group (4 rats randomly fed a 5.25 kcal/g HFD), and coexposed group (4 rats exposed to CPF and HDF). At postnatal development postnatal day (PND) 60, male and female offspring were sacrificed. The reproductive organs (ovary and testis) were removed, and histological and immunohistological analysis and in silico quantification (TissueGnostics software 6.0.1.102, TissueFAXS, HistoQuest) were applied to investigate the impact of different treatments on Kisspeptin and GnRHR expression in reproductive organs. The main outcomes of the study showed a significant decrease in rat offspring's body weight in the CPF group from PND30 and PND60 (p < 0.05 and p < 0.01, respectively). Histological analysis showed a significant increase in the atretic follicle and abnormal testis structure with germ cell desquamation in the CPF-exposed group. The immunodetection quantification of protein shows a significant decrease in GnRHR and Kisspeptin in the HFD and CPF exposed groups, respectively, in testis rat offspring. Perinatal exposure to CPF and HFD exposure affect the reproduction function of rat offspring.

Retrogene Duplication and Expression Patterns Shaped by the Evolution of Sex Chromosomes in Malaria Mosquitoes.

Genes that originate during evolution are an important source of novel biological functions. Retrogenes are functional copies of genes produced by retroduplication and as such are located in different genomic positions. To investigate retroposition patterns and retrogene expression, we computationally identified interchromosomal retroduplication events in nine portions of the phylogenetic history of malaria mosquitoes, making use of species that do or do not have classical sex chromosomes to test the roles of sex-linkage. We found 40 interchromosomal events and a significant excess of retroduplications from the X chromosome to autosomes among a set of young retrogenes. These young retroposition events occurred within the last 100 million years in lineages where all species possessed differentiated sex chromosomes. An analysis of available microarray and RNA-seq expression data for Anopheles gambiae showed that many of the young retrogenes evolved male-biased expression in the reproductive organs. Young autosomal retrogenes with increased meiotic or postmeiotic expression in the testes tend to be male biased. In contrast, older retrogenes, i.e., in lineages with undifferentiated sex chromosomes, do not show this particular chromosomal bias and are enriched for female-biased expression in reproductive organs. Our reverse-transcription PCR data indicates that most of the youngest retrogenes, which originated within the last 47.6 million years in the subgenus Cellia, evolved non-uniform expression patterns across body parts in the males and females of An. coluzzii. Finally, gene annotation revealed that mitochondrial function is a prominent feature of the young autosomal retrogenes. We conclude that mRNA-mediated gene duplication has produced a set of genes that contribute to mosquito reproductive functions and that different biases are revealed after the sex chromosomes evolve. Overall, these results suggest potential roles for the evolution of meiotic sex chromosome inactivation in males and of sexually antagonistic conflict related to mitochondrial energy function as the main selective pressures for X-to-autosome gene reduplication and testis-biased expression in these mosquito lineages.

Environmental Effects Of Monosodium Glutamate On (NF-κB) Levels In The Male Reproductive System Of Rats

Monosodium glutamate (MSG) has been identified as a food additive that Adversely affects MSG use on the reproductive efficiency by several mechanisms, this study was carried out to determine its role in stimulating the immune response in the reproductive system by estimating levels of NF-κB in serum and of its expression in reproductive organs. Thirty sex males rats were used in this study each included 12 male rats. Male rats A and B are receiving 60 and 120 mg/kg for 28 days respectively male rats of the control group were left without treatment for the period of the experiment. The levels of Nuclear factor-kappa NF-κB in serum and tissue fluid of testes and epididymis were measured. histological changes in addition to detection NF-κB expression were studying in testes and epididymis. Results of the present study recorded the toxic effect of MSG as it caused an elevation in the levels of NF-κB in serum, testicular, and epididymis tissue fluid. histological alternation in the reproductive organs was observed to represent detachment and vacuolation of the seminal epithelium, degeneration of spermatogenesis edema in a lumen in testicular tissues. Epididymal sections appeared to sever necrosis, degeneration in the epithelial layer and stereocilia, and the lumen of the epididymis. Also there was an increasing density of NFκB protein immunoreactivity in both testis and epididymis.

Demonstrating a Linear Relationship Between Vascular Endothelial Growth Factor and Luteinizing Hormone in Kidney Cortex Extracts.

Vascular endothelial growth factor (VEGF) helps to control angiogenesis and vascular permeability in the kidney. Renal disorders, such as diabetic nephropathy, are associated with VEGF dysregulation in the kidney. The factors that govern VEGF under physiologic conditions in the kidney are not well-understood. Luteinizing hormone (LH), a pro-angiogenic hormone, helps regulate physiologic VEGF expression in reproductive organs. Given that LH receptors are found in the kidney, we, at Zietchick Research Institute, hypothesized here that LH also helps regulate VEGF expression in the kidney as well. To provide evidence, we aimed to show that LH levels are able to predict VEGF levels in the mammalian kidney. Most VEGF-related investigations involving the kidney have used lower order mammals as models (i.e., rodents and rabbits). To translate this work to the human body, it was decided to examine the relationship between VEGF and LH in higher order mammals (i.e., bovine and porcine models). This protocol uses the total protein lysate from the kidney cortex. Keys to this method's success include procurement of kidneys from slaughterhouse animals immediately after death as well as normalization of analyte levels (in the kidney extract) by total protein. This study successfully demonstrates a significant linear relationship between LH and VEGF in both bovine and porcine kidneys. The results are reproducible in two different species. The study provides supporting evidence that the use of kidney extracts from cows and pigs are an excellent, economical, and abundant resource for the study of renal physiology, particularly for examining the correlation between VEGF and other analytes.

Characterization of the novel role of NinaB orthologs from Bombyx mori and Tribolium castaneum

Carotenoids can be enzymatically converted to apocarotenoids by carotenoid cleavage dioxygenases. Insect genomes encode only one member of this ancestral enzyme family. We cloned and characterized the ninaB genes from the silk worm (Bombyx mori) and the flour beetle (Tribolium castaneum). We expressed BmNinaB and TcNinaB in E. coli and analyzed their biochemical properties. Both enzymes catalyzed a conversion of carotenoids into cis-retinoids. The enzymes catalyzed a combined trans to cis isomerization at the C11, C12 double bond and oxidative cleavage reaction at the C15, C15′ bond of the carotenoid carbon backbone. Analyses of the spatial and temporal expression patterns revealed that ninaB genes were differentially expressed during the beetle and moth life cycles with high expression in reproductive organs. In Bombyx mori, ninaB was almost exclusively expressed in female reproductive organs of the pupa and adult. In Tribolium castaneum, low expression was found in reproductive organs of females but high expressions in male reproductive organs of the pupa and imagoes. We performed RNAi experiments to characterize the role of NinaB in insect reproduction. We observed that RNAi treatment significantly decreased the expression levels of BmninaB and TcninaB and reduced the egg laying capacity of both insects. Together, our study revealed that NinaB's unique enzymatic properties are well conserved among insects and implicate NinaB function in insect reproduction.

Cloning and Characterization of Two FLOWERING LOCUS T-like Genes from Rubber Tree (Hevea brasiliensis)

Two Flower locus T-like genes were isolated and characterized in rubber tree. Both of them were found to have conserved genomic characteristics of the phosphatidylethanolamine-binding protein family and their encoding proteins possess conserved key amino acid residues of FT. RT-qPCR results showed that HbFT1 was restricted in mature leaves, male and female flowers whereas HbFT2 showed the main expression in reproductive organs. Both of them can be induced by short-day conditions but with different expression patterns and regulated by temperature. Transgenic wild-type Arabidopsis can reduce the flowering time and change plant morphogenesis, with fewer rosette leaves and terminal inflorescence to some degrees, as well as the phenotype of ft-10 can also be successfully rescued by ectopic expressing each of them, respectively, suggesting that both of them can exert the function of AtFT. However, they displayed different seasonal-change expression patterns, with HbFT1 mainly accumulating in September for adult trees and in October for juvenile trees and HbFT2 transcript accumulating in March, which was the main floral initiation period, even though both of them showed higher transcript levels in adult trees than 2-year-old trees, implying their different biological functions during growth and development as well as flowering transition in rubber tree.

Gene expression in reproductive organs of tsetse females \u2013 initial data in an approach to reduce fecundity

BackgroundTsetse flies are vectors of African trypanosomes, and their vectorial capacity results in a major public health emergency and vast economic losses in sub-Saharan Africa. Given the limited ability of trypanosome prevention and eradication, tsetse vectors remain major targets of control efforts. Larvae of all three instars are developed in mothers’ uteri, nourished through milk, and ‘larviposited’ shortly before pupation. The past few years have witnessed the emergence of approaches based on knockdown of genes involved in milk production, resulting in a significant reduction of fecundity.ResultsIn order to identify further genes applicable in the control of tsetse flies, we determined the expression of protein-coding genes in ovaries and uteri from both virgin and heavily pregnant Glossina morsitans morsitans females. Comparison of expression profiles allowed us to identify candidate genes with increased expression in pregnant individuals. Lists with the highest increases include genes involved in oocyte and embryonic development, or nourishment. Maximum ovarian fold change does not exceed 700, while the highest uterine fold change reaches to more than 4000. Relatively high fold changes of two neuropeptide receptors (for corazonin and myosuppressin) propose the corresponding genes alternative targets.ConclusionsGiven the higher fold changes in the uterus, targeting gene expression in this tissue may result in a more evident reduction of fecundity. However, ovaries should not be neglected, as manifested by several genes with top fold changes involved in early developmental stages. Apart from focusing on the highest fold changes, neuropeptide receptors with moderate increases in expression should be also verified as targets, given their roles in mediating the tissue control. However, this data needs to be considered initial, and the potential of these genes in affecting female fecundity needs to be verified experimentally.

Vitreous Levels of Luteinizing Hormone and VEGF are Strongly Correlated in Healthy Mammalian Eyes

ABSTRACTPurpose/Aim: Luteinizing hormone (LH) is known to function as a key regulator of vascular endothelial growth factor (VEGF) expression in reproductive organs. In recent years, LH has also been detected in human vitreous and LH receptors have been identified in human retina. This study was aimed to investigate a potential correlation between LH and VEGF levels in healthy mammalian eyes to provide supporting evidence of LH’s potential involvement in intraocular VEGF regulation.Methods: 18 bovine and 30 porcine eyes were procured from an abattoir and VEGF and LH levels were measured in the vitreous extracted from these eyes by commercially available bovine & porcine ELISA assay kits. Total protein of the vitreous was measured by using Micro BSA protein assay kit.Results: After total protein normalization, the Pearson Correlation Coefficients (PCC) showed a strong and significant correlation between LH and VEGF levels. (Bovine LH/VEGF PCC: 0.89, p < 0.001; Porcine LH/VEGF PCC: 0.80, p < 0.001). Linear regression analyses, adjusted for gender, showed significant linear relationships between LH and VEGF levels in both bovine and porcine vitreous. (Bovine: t-value = 7.69, p < 0.0001, adjusted r2 = .79; Porcine: t-value = 6.71, p < 0.001, adjusted r2 = .62)Conclusions: We show that VEGF and LH are strongly correlated in healthy, adult mammalian eyes. The robustness of the correlation is shown both by its strength of association and reproducibility in two species. Given that LH is well known to regulate VEGF levels in several tissue types, the LH/VEGF linear relationship in vitreous potentially implicates LH in homeostatic VEGF regulation of the eye. Because we also found that the correlation between LH and VEGF only became manifest when our targeted analytes were normalized by total amount of protein, preclinical and clinical investigators should consider normalizing analytes in vitreous by total protein when assessing potential correlations among them.

Structure, target-specificity and expression of PN_LNC_N13, a long non-coding RNA differentially expressed in apomictic and sexual Paspalum notatum

Key messagencRNA PN_LNC_N13 shows contrasting expression in reproductive organs of sexual and apomictic Paspalum notatum genotypes.Apomictic plants set genetically maternal seeds whose embryos derive by parthenogenesis from unreduced egg cells, giving rise to clonal offspring. Several Paspalum notatum apomixis related genes were identified in prior work by comparative transcriptome analyses. Here, one of these candidates (namely N13) was characterized. N13 belongs to a Paspalum gene family including 30–60 members, of which at least eight are expressed at moderate levels in florets. The sequences of these genes show no functional ORFs, but include segments of different protein coding genes. Particularly, N13 shows partial identity to maize gene BT068773 (RESPONSE REGULATOR 6). Secondary structure predictions as well as mature miRNA and target cleavage detection suggested that N13 is not a miRNA precursor. Moreover, N13 family members produce abundant 24-nucleotide small RNAs along extensive parts of their sequences. Surveys in the GREENC and CANTATA databases indicated similarity with plant long non-coding RNAs (lncRNAs) involved in splicing regulation; consequently, N13 was renamed as PN_LNC_N13. The Paspalum BT068773 predicted ortholog (N13TAR) originates floral transcript variants shorter than the canonical maize isoform and with possible structural differences between the apomictic and sexual types. PN_LNC_N13 is expressed only in apomictic plants and displays quantitative representation variation across reproductive developmental stages. However, PN_LNC_N13-like homologs and/or its derived sRNAs showed overall a higher representation in ovules of sexual plants at late premeiosis. Our results suggest the existence of a whole family of N13-like lncRNAs possibly involved in splicing regulation, with some members characterized by differential activity across reproductive types.

Expression of repulsive guidance molecule b (RGMb) in the uterus and ovary during the estrous cycle in rats

Repulsive guidance molecule b (RGMb; a.k.a. Dragon), initially identified in the embryonic dorsal root ganglion, is the first member of the RGM family shown to enhance bone morphogenetic protein (BMP) signaling by acting as a BMP co-receptor. BMP signaling has been demonstrated to play an important role in the reproductive organs. Our previous study found that RGMb was expressed in the reproductive axis, but whether RGMb expression in reproductive organs changes across the estrous cycle remains unknown. Here, we show in the rat that RGMb mRNA expression in the uterus was significantly higher during metesterus and diestrus than during proestrus and estrus. Western blotting indicated that RGMb protein was significantly lower during estrus compared with the other three stages. Immunohistochemistry revealed that RGMb protein was mainly localized to the uterine luminal and glandular epithelial cells of the endometrium. RGMb mRNA and protein in the ovary remained unchanged during the estrous cycle. RGMb protein was expressed in the oocytes of all follicles. Weak staining for RGMb protein was also found in corpora lutea. RGMb was not detected in granulosa cells and stromal cells. Taken together, RGMb expression in the uterus and ovary across the estrus cycle demonstrate that RGMb may be involved in the regulation of uterine function, follicular development as well as luteal activity.

Comprehensive analysis of the homeodomain-leucine zipper IV transcription factor family inCucumis sativus

The class IV homeodomain-leucine zipper (HD-Zip IV) proteins are plant-specific transcriptional factors known to play crucial roles in plant growth and development. In this study, 11 cucumber (Cucumis sativus) HD-Zip IV genes were identified in the version 2 cucumber genome and found to be distributed unevenly across the chromosomes. The CsHDZIV (Cucumis sativus homeodomain-leucine zipper IV) gene family is smaller than in other studied species (except for rice) because of the absence of gene duplication events. Phylogenetic analysis showed that HD-Zip IV genes from cucumber, Arabidopsis, tomato, cotton, maize, and rice could be classified into five subgroups. All CsHDZIV genes appear to be derived from a basic module containing 11 exons in the coding region. Two conserved motifs of 21 and 19 nucleotides were found in the 3'-untranslated regions of six CsHDZIV genes, suggesting that post-transcriptional regulation may play a role in regulation of CsHDZIV genes. In addition, 6 of 11 CsHDZIV genes were found to undergo alternative splicing events. Reverse transcription PCR analysis showed that all CsHDZIV genes (except one) were expressed and showed preferential expression in reproductive organs.

Mitochondrial GCD1 Dysfunction Reveals Reciprocal Cell-to-Cell Signaling during the Maturation of Arabidopsis Female Gametes

Cell-to-cell communication in embryo sacs is thought to regulate the development of female gametes in flowering plants, but the details remain poorly understood. Here, we report a mitochondrial protein, GAMETE CELL DEFECTIVE 1 (GCD1), enriched in gametophytes that is essential for final maturation of female gametes. Using Arabidopsis gcd1 mutants, we found that final maturation of the egg and central cells is not required for double fertilization but is necessary for embryogenesis initiation and endosperm development. Furthermore, nonautonomous effects, observed when GCD1 or AAC2 function is disrupted, suggest that mitochondrial function influences reciprocal signaling between central and egg cells to regulate maturation of the partner (egg or central) cell. Our findings confirm that cell-to-cell communication is important in functional maturation of female gametic cells and suggest that both egg and central cells sense and transmit their mitochondrial metabolic status as animportant cue that regulates the coordination of gamete maturation.

Differential Neurotrophin-4 mRNA Expression in Reproductive Organs of Prepubertal Gilts with Different Dietary Energy Level

Differential Neurotrophin-4 mRNA Expression in Reproductive Organs of Prepubertal Gilts with Different Dietary Energy Level

Testosterone administration to adult rats differentially modulates androgen and oestrogen receptor-α expression in reproductive organs and pituitary

Regulation of androgen receptor (AR) and oestrogen receptor α (ERα) expression has direct bearing on the physiology of male reproductive organs. With the help of three independent tools of immunohistochemistry, western blotting and RT-PCR, AR and ER α receptor expression was examined in the testis, epididymis, prostate, seminal vesicle and pituitary of adult rats following testosterone enanthate (TE, 3 mg/100 μl of olive oil/rat per week) intervention for 15 and 30 days. TE administration reduced AR immunoexpression which coincided well with the decline in the receptor protein and transcript levels. In contrast, ERα was found overexpressed in all the organs. While weights of testis and epididymis decreased significantly, those of prostate, seminal vesicle and pituitary demonstrated an upward trend. Spermatogenesis was adversely affected with decline in number of germ cells per tubule and increased prevalence of germ cell apoptosis. Increase in serum and decrease in intra-testicular levels of testosterone were found significant (P < 0.001) in both 15 and 30 days treatment groups. Serum follicle stimulating hormone declined significantly (P < 0.001) at the end of 30 days treatment. Taken together, the above findings indicate that the testosterone intervention differentially modulates, AR ERα expression, which is associated with hypospermatogenesis and increased germ cell apoptosis.

Characterization, sub-cellular localization and expression profiling of the isoprenylcysteine methylesterase gene family in Arabidopsis thaliana

BackgroundIsoprenylcysteine methylesterases (ICME) demethylate prenylated protein in eukaryotic cell. Until now, knowledge about their molecular information, localization and expression pattern is largely unavailable in plant species. One ICME in Arabidopsis, encoded by At5g15860, has been identified recently. Over-expression of At5g15860 caused an ABA hypersensitive phenotype in transgenic Arabidopsis plants, indicating that it functions as a positive regulator of ABA signaling. Moreover, ABA induced the expression of this gene in Arabidopsis seedlings. The current study extends these findings by examining the sub-cellular localization, expression profiling, and physiological functions of ICME and two other ICME-like proteins, ICME-LIKE1 and ICME-LIKE2, which were encoded by two related genes At1g26120 and At3g02410, respectively.ResultsBioinformatics investigations showed that the ICME and other two ICME-like homologs comprise a small subfamily of carboxylesterase (EC 3.1.1.1) in Arabidopsis. Sub-cellular localization of GFP tagged ICME and its homologs showed that the ICME and ICME-like proteins are intramembrane proteins predominantly localizing in the endoplasmic reticulum (ER) and Golgi apparatus. Semi-quantitative and real-time quantitative PCR revealed that the ICME and ICME-like genes are expressed in all examined tissues, including roots, rosette leaves, cauline leaves, stems, flowers, and siliques, with differential expression levels. Within the gene family, the base transcript abundance of ICME-LIKE2 gene is very low with higher expression in reproductive organs (flowers and siliques). Time-course analysis uncovered that both ICME and ICME-like genes are up-regulated by mannitol, NaCl and ABA treatment, with ICME showing the highest level of up-regulation by these treatments. Heat stress resulted in up-regulation of the ICME gene significantly but down-regulation of the ICME-LIKE1 and ICME-LIKE2 genes. Cold and dehydration stimuli led to no significant change of both ICME and ICME-like gene expression. Mutant icme-like2-1 showed increased sensitivity to ABA but slightly decreased sensitivity to salt and osmotic stresses during seed germination.ConclusionsIt is concluded that the ICME family is involved in stress and ABA signaling in Arabidopsis, probably through mediating the process of demethylating prenylated proteins. Identification of these prenylated proteins will help to better understand the significance of protein prenylation in Planta.

Effect of chronic oestrogen administration on androgen receptor expression in reproductive organs and pituitary of adult male rat

Following chronic (15 or 30 days) treatment with oestradiol 3-benzoate (75 microg rat(-1) day(-1) in 100 microl of olive oil) to adult rats, androgen receptor (AR) expression was analysed simultaneously in testis, epididymis, seminal vesicle, prostate and pituitary utilising three independent tools i.e. immunohistochemistry, Western blotting and RT-PCR. All the five organs showed higher AR transcriptional activity gradually increasing from 15 to 30 days of oestrogen treatment. However, the AR protein expression either through immunostaining or Western blotting demonstrated a significant decline in all the reproductive organs. In the pituitary, on the other hand, the decline coincided with a distinct breakdown of the AR protein into two bands with increasing duration of treatment. Serum and intra-testicular testosterone levels were found significantly lowered. Spermatogenesis was adversely affected with concurrent decrease in weights of testis and accessory sex organs. Decrease in testis weight was consistent with the reduction in the number of maturing germ cells per tubule. Despite the decrease in weight, accessory sex organs like epididymis, seminal vesicle and prostate were completely devoid of any apoptotic cells which were characterised only in testis and pituitary. Seminiferous epithelium demonstrated a marked increase in the number of germ cells undergoing apoptosis. However, the rate of cell apoptosis was much higher in the pituitary than in the testis at the end of 30 days treatment. It is therefore concluded that degradation of AR protein expression after oestrogen treatment is probably directly linked to an increase in cell apoptosis both in testis and pituitary.

Expression of basigin in reproductive tissues of estrogen receptor-α or -β null mice

Basigin plays important roles in both male and female reproduction because basigin (Bsg) null male and female mice are infertile. The aim of the present study was to determine whether basigin expression in reproductive organs requires estrogen receptor-alpha (ESR1, ERalpha) or -beta (ESR2, ERbeta). Expression of basigin protein in the testis, ovary, and male and female reproductive tracts was studied in adult wild-type (WT), Esr1-null (alphaERKO), and Esr2-null (betaERKO) mice by immunohistochemistry and immunoblotting. Basigin mRNA levels in ovary and uterus were examined by quantitative RT-PCR. In females, basigin protein expression was observed mainly in granulosa and interstitial cells of the ovary and epithelial cells of the proximal oviduct in all genotypes. Basigin protein was also expressed in the uterine epithelium at proestrus and estrus in WT and betaERKO mice but not in alphaERKO mice. However, a higher level of basigin mRNA was observed in uteri of alphaERKO mice compared with WT and betaERKO mice. In males, basigin was expressed in Leydig cells and all germ cells except spermatogonia in all genotypes. Basigin was present in epithelial cells lining the efferent ductules in WT and betaERKO mice, but expression was greatly reduced in alphaERKO mice. In epididymal ducts, basigin expression was observed in epithelial cells in the caput and cauda in all genotypes. These data suggest that expression of basigin protein requires ESR1, but not ESR2, in the uterus and efferent ductules, but is independent of estrogen receptor in the ovary, oviduct, testis, and epididymis.

Downregulation of Reproductive Homeobox Gene 6 (Rhox6) Interferes with Male Germ Cell Differentiation.

Homeodomain proteins contain a 60 amino acid DNA binding motif called homeobox that regulates a variety of developmental events such as determination of body segment identity, limb development and organogenesis. Recently, a novel cluster of homeobox genes has been discovered on the X chromosome of the mouse. Because of their selective expression in reproductive organs, they are named Reproductive homeobox genes on the X chromosome (Rhox). Rhox6, a member of the Rhox6 family, is expressed in primordial germ cells (PGCs) in the developing gonad and the placenta, although the biological function of Rhox6 in determination of PGCs and placental cells remains unknown. To investigate the Rhox6 function, we generated male chimeric mice by injection of the gene-trapped embryonic stem cells (ESCs) harboring a hypomorphic mutation in Rhox6 into wild-type blastocysts. Almost all of the male chimeric mice exhibited infertility associated with smaller testes, reduced sperm number and motility and abnormal morphology of the epididymal sperm. Next, to obtain a better understanding of the Rhox6 function in germ cell differentiation, we took advantage of in vitro ESC culture. ESCs can differentiate into PGCs when ESCs are cultured as aggregates called embryoid bodies (EBs) in the medium containing Ascorbic acid, 1-Thioglycerol and Transferrin without the leukemia inhibitory factor. By using a mouse ESC line that expresses the enhanced green fluorescent protein (EGFP) under the promoter of Oct3/4, a central regulator of cellular pluripotency, the presence of PGCs within EBs was monitored in real time by EGFP expression. While this ESC line was induced to differentiate into PGCs, expression of Rhox6 was downregulated by stable expression of the short-hairpin (sh) RNA against the Rhox6 transcripts. The level of Rhox6 knockdown was validated by RT-PCR. As a negative control, a scrambled nucleotide sequence that does not show any match with the mouse genome was used to express shRNA molecules. EBs were generated from multiple independent clones that express either one of the shRNAs, which were isolated by electroporation of the ESC line with each vector, followed by drug selection. We found that 0% of the EBs having the shRNA against the Rhox6 transcripts expressed (n=29; the number of clones used to generate EBs is 17) had EGFP-positive cells, whereas 43% of the EBs having the control shRNA expressed (n=35; the number of clones used to generate EBs is 25) had EGFP-positive cells. To validate differentiation of PGCs, these EBs were pooled according to EGFP expression and used to examine expression of PGC markers by semi-quantitative RT-PCR. Because expression of Rex1, a marker for undifferentiated ESCs, was significantly downregulated in these EBs than in undifferentiated ESCs, EGFP expression detected in the EBs indicates the presence of PGCs, but not the presence of undifferentiated ESCs. Rhox6 as well as other PGC markers including Oct3/4, Rnh2, Piwil2, and Fgls were downregulated in the EBs expressing the shRNA against the Rhox6 transcripts, whereas the EBs expressing the control shRNA with EGFP-positive cells expressed Rhox6 and these PGC markers. Collectively, these in vivo and in vitro studies strongly suggest that downregulation of Rhox6 impairs differentiation of PGCs. This study is supported by the Departmental Startup fund including the USDA Cooperative State Research, Education and Extension Service, Hatch project (ILLU-538-323). (poster)

Leptin mRNA expresses in the bull reproductive organ

Leptin, a 167-amino acid hormone, is secreted mainly by fat tissue. It has some powerful effects on the regulation of metabolism and reproductive function through endocrine and probably paracrine mechanisms. The contribution rate of leptin function on the male reproductive system is not still clear. Characterization of leptin expression in reproductive organs will suggest that in addition to its endocrine action, leptin has also paracrine/autocrine effects on reproduction. The expression of functional leptin receptor mRNA has been already recognized in testis of rodents, human and cattle. Thus, the aim of the present study was to investigate the presence of leptin mRNA in the bovine testis, because it will be the first step for understanding of its paracrine/autocrine effects on the male reproductive organs in cattle. The present study was the first to showed leptin mRNA expression in the testis of Holstein cattle using reverse transcription and polymerase chain reaction (RT-PCR) analysis. RT-PCR products were amplified with nested PCR using inner leptin primer pairs to emphasis the first results. Besides, bovine beta actin gene was acted as an internal positive control as well as RNA purification marker. Our findings suggest that in addition to its endocrine actions at the hypothalamic-pituitary axis, leptin can has an autocrine and/or paracrine role in bull testicular function.