Purinergic signaling in the male reproductive tract.

Purinergic receptors are ubiquitously expressed throughout the body and they participate in the autocrine and paracrine regulation of cell function during normal physiological and pathophysiological conditions. Extracellular nucleotides activate several types of plasma membrane purinergic receptors that form three distinct families: P1 receptors are activated by adenosine, P2X receptors are activated by ATP, and P2Y receptors are activated by nucleotides including ATP, ADP, UTP, UDP, and UDP-glucose. These specific pharmacological fingerprints and the distinct intracellular signaling pathways they trigger govern a large variety of cellular responses in an organ-specific manner. As such, purinergic signaling regulates several physiological cell functions, including cell proliferation, differentiation and death, smooth muscle contraction, vasodilatation, and transepithelial transport of water, solute, and protons, as well as pathological pathways such as inflammation. While purinergic signaling was first discovered more than 90 years ago, we are just starting to understand how deleterious signals mediated through purinergic receptors may be involved in male infertility. A large fraction of male infertility remains unexplained illustrating our poor understanding of male reproductive health. Purinergic signaling plays a variety of physiological and pathophysiological roles in the male reproductive system, but our knowledge in this context remains limited. This review focuses on the distribution of purinergic receptors in the testis, epididymis, and vas deferens, and their role in the establishment and maintenance of male fertility.

Expression of the pro-inflammatory P2Y14 receptor in the non-vasectomized and vasectomized human epididymis.

BACKGROUND: Vasectomy causes spermatozoa accumulation in the epididymis, which may cause epididymitis. Inflammation is triggered by alert molecules released following tissue stress or injury. These include uracil-diphosphate glucose (UDP)-glucose, which activates the pro-inflammatory P2Y14 receptor (P2Y14), and induces immune cell recruitment. However, little is known about P2Y14 in the epididymis and its potential activation following vasectomy. OBJECTIVES: (i) To localize P2Y14 in the human excurrent duct; and (ii) to examine the effect of vasectomy on P2Y14 protein and P2RY14 mRNA content, the production of selected cytokines and chemokines, and immune cell recruitment in the epididymis. MATERIAL AND METHODS: In situ hybridization, qRT-PCR, western blotting, immunohistochemistry, and immunofluorescence were performed in banked human epididymis samples. RESULTS: P2RY14 mRNA and P2Y14 protein were detected in epithelial cells in the efferent duct, epididymis and vas deferens in non-vasectomized men. Keratin 5 (KRT5)-positive basal cells were strongly labeled for P2Y14 in all epididymal segments. A progressive apical localization was detected in principal cells (negative for the proton pump V-ATPase) from the corpus to the cauda. A subset of V-ATPase-positive clear cells also showed strong P2Y14 labeling. Vasectomy induced an increase in P2RY14 mRNA in the corpus and cauda, and stronger apical labeling in principal cells in the corpus. CXCL10 mRNA increased in the cauda and CCL2 mRNA decreased in the corpus of vasectomized versus non-vasectomized men. No change in IL-8 and IL-1ß mRNA was detected. Numerous CD45+ leukocytes were detected in the interstitium of the corpus and cauda following vasectomy, while only a few were seen in non-vasectomized men. Several CD45+ leukocytes, some of which containing spermatozoa, were detected in the corpus lumen following vasectomy. DISCUSSION AND CONCLUSION: Our study indicates that vasectomy-induced spermatozoa congestion may lead to an inflamed-prone local environment characterized by potential activation of P2Y14 and recruitment of immune cells in the epididymis.

Large-scale discovery of male reproductive tract-specific genes through analysis of RNA-seq datasets.

BACKGROUND: The development of a safe, effective, reversible, non-hormonal contraceptive method for men has been an ongoing effort for the past few decades. However, despite significant progress on elucidating the function of key proteins involved in reproduction, understanding male reproductive physiology is limited by incomplete information on the genes expressed in reproductive tissues, and no contraceptive targets have so far reached clinical trials. To advance product development, further identification of novel reproductive tract-specific genes leading to potentially druggable protein targets is imperative. RESULTS: In this study, we expand on previous single tissue, single species studies by integrating analysis of publicly available human and mouse RNA-seq datasets whose initial published purpose was not focused on identifying male reproductive tract-specific targets. We also incorporate analysis of additional newly acquired human and mouse testis and epididymis samples to increase the number of targets identified. We detected a combined total of 1178 genes for which no previous evidence of male reproductive tract-specific expression was annotated, many of which are potentially druggable targets. Through RT-PCR, we confirmed the reproductive tract-specific expression of 51 novel orthologous human and mouse genes without a reported mouse model. Of these, we ablated four epididymis-specific genes (Spint3, Spint4, Spint5, and Ces5a) and two testis-specific genes (Pp2d1 and Saxo1) in individual or double knockout mice generated through the CRISPR/Cas9 system. Our results validate a functional requirement for Spint4/5 and Ces5a in male mouse fertility, while demonstrating that Spint3, Pp2d1, and Saxo1 are each individually dispensable for male mouse fertility. CONCLUSIONS: Our work provides a plethora of novel testis- and epididymis-specific genes and elucidates the functional requirement of several of these genes, which is essential towards understanding the etiology of male infertility and the development of male contraceptives.

Differential gene expression profiles of human efferent ducts and proximal epididymis.

BACKGROUND: Gene expression patterns along the epididymis are established by specific transcription factor networks that coordinate region-specific functions. In rodents, the epididymis can be divided in up to 19 segments. Based on gross anatomy, the human epididymis is divided into caput, corpus, and cauda segments together with efferent ducts that occupy the proximal part of this organ. OBJECTIVES: To determine to which extent gene expression pattern is segmented along the efferent ducts and the proximal region of the epididymis in men of reproductive age. MATERIALS AND METHODS: Epididymal transcriptome profiling was performed on eight distinct regions from three donors. Microarray analysis was performed on a gene-chip microarray. Differentially expressed genes (DEGs)>2-fold change (P < .05) were clustered in relation to their intensity profiles. Overrepresented biological functions from gene ontology were searched using DAVID 6.8. Expression profiles were validated by qRT-PCR quantification of selected genes. RESULTS: There were no DEGs among segments 1-3 of efferent ducts region neither among segments 4-6 of the caput epididymis. 1058 DEGs were identified between efferent ducts and the epididymis, whereas 444 and 846 DEGs distinguished the caput from the corpus (section 7) and cauda (section 8) epididymis, respectively. A total of 131 DEGs were detected between corpus (7) and cauda (8) transcriptomes. Up-regulated DEGs in the efferent ducts were predominantly related to cilium assembly/movement and cell differentiation. Fertilization, defense, and immune responses were associated with caput epididymis (4-6), while spermatogenesis and protein binding were found all along the epididymis (4-8). DISCUSSION: The proximal human epididymis is exclusively occupied by efferent ducts with a distinct DEG profile compared with the downstream epididymal segments. Moreover, gene expression profiling revealed two regions in the human epididymis: the caput and the distal corpus/cauda region. CONCLUSIONS: Human epididymal transcriptome reveals limited DEGs, and efferent ducts have a distinct DEGs profile.

Impact of male fertility status on the transcriptome of the bovine epididymis.

STUDY QUESTION: Can region-specific transcriptional profiling of the epididymis from fertile and sub-fertile bulls predict the etiology of fertility/sub-fertility in males? SUMMARY ANSWER: The highly regulated gene expression along the bovine epididymis is affected by the fertility status of bulls used for artificial insemination. WHAT IS KNOWN ALREADY: In mammals, sperm maturation and storage occur in the epididymis. Each epididymal segment has his own transcriptomic signature that modulates the intraluminal composition and consequently governs sequential modifications of the maturing male gamete. STUDY DESIGN, SIZE, DURATION: Epididymides from six Holstein bulls with documented fertility were used. These bulls were divided into two groups: high fertility (n = 3), and medium-low fertility (n = 3) and their epididymal transcriptomic profiles were analyzed. PARTICIPANTS/MATERIALS, SETTING, METHODS: Bovine cDNA microarray probing and bioinformatic tools were used to identify genes that are differentially expressed in caput, corpus and cauda epididymidal tissues of bulls with the documented fertility index. MAIN RESULTS AND THE ROLE OF CHANCE: Hierarchical clustering and principal component analysis revealed a clear separation between caput, corpus and cauda epididymides. Some transcripts characterize a particular anatomical segment, whereas others are expressed in two out of three epididymal segments. Gene ontology analysis allowed deduction of specific functions played by each epididymal segment. The transcriptional profiles between fertile versus sub-fertile conditions clustered most closely in the corpus and cauda segments, whereas the profiles in the caput segment were distinct between fertile and sub-fertile bulls. Of the differently expressed genes, 10 (AKAP4, SMCP, SPATA3, TCP11, ODF1, CTCFL, SPATA18, ADAM28, SORD and FAM161A) were found to exert functions related to reproductive systems and 5 genes (DEAD, CYST11, DEFB119, DEFB124 and MX1) were found to be associated with the defense response. LARGE SCALE DATA: The GEO number for public access of bovine epididymis microarray data is GSE96602. LIMITATIONS, REASONS FOR CAUTION: Further work is required to link these modulations of epididymal functions with sperm fertilizing ability in order to understand the etiology of certain cases of idiopathic infertility in livestock and men. WIDER IMPLICATIONS OF THE FINDINGS: As fertility can be quantified in bulls used for artificial insemination, this species is a unique model to aid in the understanding of male fertility/sub-fertility in man. Our data provide a molecular characterization that will facilitate advances in understanding the involvement of epididymal physiology in sub/infertility etiology. STUDY FUNDING/COMPETING INTEREST(S): This work was supported by a grant to R.S. from the Natural Sciences and Engineering Research Council (NSERC) of Canada. C.L., A.A., E.C. and R.S. have no conflict of interest to declare. P.B. is R&D director at Alliance Boviteq Inc., a bovine artificial insemination company.

Preclinical evaluation of a TEX101 protein ELISA test for the differential diagnosis of male infertility.

BACKGROUND: TEX101 is a cell membrane protein exclusively expressed by testicular germ cells and shed into seminal plasma. We previously verified human TEX101 as a biomarker for the differential diagnosis of azoospermia, and developed a first-of-its-kind TEX101 ELISA. To demonstrate the clinical utility of TEX101, in this work we aimed at evaluating ELISA performance in a large population of fertile, subfertile, and infertile men. METHODS: Mass spectrometry, size-exclusion chromatography, ultracentrifugation, and immunohistochemistry were used to characterize TEX101 protein as an analyte in seminal plasma. Using the optimized protocol for seminal plasma pretreatment, TEX101 was measured by ELISA in 805 seminal plasma samples. RESULTS: We demonstrated that TEX101 was present in seminal plasma mostly in a free soluble form and that its small fraction was associated with seminal microvesicles. TEX101 median values were estimated in healthy, fertile pre-vasectomy men (5436 ng/mL, N = 64) and in patients with unexplained infertility (4967 ng/mL, N = 277), oligospermia (450 ng/mL, N = 270), and azoospermia (0.5 ng/mL, N = 137). Fertile post-vasectomy men (N = 57) and patients with Sertoli cell-only syndrome (N = 13) and obstructive azoospermia (N = 36) had undetectable levels of TEX101 (≤0.5 ng/mL). A cut-off value of 0.9 ng/mL provided 100% sensitivity at 100% specificity for distinguishing pre- and post-vasectomy men. The combination of a concentration of TEX101 > 0.9 ng/mL and epididymis-specific protein ECM1 > 2.3 µg/mL provided 81% sensitivity at 100% specificity for differentiating between non-obstructive and obstructive azoospermia, thus eliminating the majority of diagnostic testicular biopsies. In addition, a cut-off value of ≥0.6 ng/mL provided 73% sensitivity at 64% specificity for predicting sperm or spermatid retrieval in patients with non-obstructive azoospermia. CONCLUSIONS: We demonstrated the clinical utility of TEX101 ELISA as a test to evaluate vasectomy success, to stratify azoospermia forms, and to better select patients for sperm retrieval.

Dicarbonyl L-xylulose reductase (DCXR), a "moonlighting protein" in the bovine epididymis.

During maturation and the acquisition of their fertilization potential, male germ cells are subjected to various sequential modifications that occur in the epididymis. Protein addition, reorganization or withdrawal, comprise some of these modifications. Dicarbonyl L-xylulose reductase (DCXR), a multifunctional protein involved in various enzymatic and protein interaction processes in different physiological systems, is one of the proteins added to spermatozoa in the epididymis. DCXR is a well-conserved protein with multiple characteristics including enzymatic activities and mediation of cell-cell interaction. In this study, we characterized the DCXR gene and protein expression in the bovine epididymis. Dicarbonyl L-xylulose reductase mRNA is differentially expressed in the caput, corpus, and cauda epididymide epithelial cells with a higher level observed in the cauda region. Tissue protein expression follows the same pattern as the corresponding mRNA expression with a cytoplasmic and apical distribution in the corpus and cauda epithelial cells, respectively. The protein can also be found with a nuclear localization in cauda epididymidis epithelial cells. Dicarbonyl L-xylulose reductase is secreted in the epididymis luminal compartment in the soluble fraction and is associated with microvesicular elements named epididymosomes. In spermatozoa, the DCXR protein was found in the cytoplasmic and membranous fractions. Expression of the DCXR protein is higher on caput spermatozoa but finally shows a weak detection in semen. These data describe DCXR in the bovine epididymis and reveal that its behavior differs from that found in humans. It seems that, in this model, the DCXR protein might have a questionable involvement in the fertilization process.

Investigation of male infertility using quantitative comparative proteomics.

Male factors account for 40% of infertility cases. The identification of differentially expressed proteins on spermatozoa from fertile and infertile men can help in the elucidation of the molecular basis of male infertility. The aim of this study was to compare sperm proteomes from 3 different groups: fertile men, normozoospermic men consulting for infertility, and normozoospermic men with an impaired capacity for fertilization (IVF-failure). We used differential proteomics with isobaric tags for relative and absolute quantitation (iTRAQ) labeling, and LC-MS analysis to identify proteins that are differentially expressed. A total of 348 unique proteins were identified and quantified. The analysis identified 33 proteins that were differentially expressed in the IVF-failure group vs the fertile group. Comparison of the infertile and fertile groups revealed that 18 proteins appeared to be differentially expressed. Four proteins were similarly altered in the IVF-failure and infertile groups: semenogelin 1 (SEMG1), prolactin-induced protein (PIP), glyceraldehyde-3-phosphate dehydrogenase (GAPDHS), and phosphoglycerate kinase 2 (PGK2). These protein markers were selected for validation using multiple reactions monitoring mass spectrometry (MRM-MS) and further confirmed by Western blot analysis. Overall, these results suggest that a panel of proteins may be used as biomarkers for future studies of infertility.

Cysteine-rich secretory protein 1 in seminal plasma: potential biomarker for the distinction between obstructive and nonobstructive azoospermia.

OBJECTIVE: To investigate the presence of cysteine-rich secretory protein 1 (CRISP1) in seminal plasma as a means of distinguishing between obstructive azoospermia (OA) and nonobstructive azoospermia (NOA). DESIGN: Seminal plasma from normospermic donors (n = 45) and azoospermic donors (n = 80) was examined to determine CRISP1 levels. Neutral alpha-glucosidase (NAG) enzymatic activity was measured for comparison with CRISP1 levels. SETTING: Research unit of an academic medical center. PATIENT(S): Normospermic and azoospermic donors from the clinical andrology laboratory of the centre hospitalier universitaire de Québec and from Mount Sinai Hospital. INTERVENTION(S): Seminal CRISP1 measurement by Western blot analysis. Neutral alpha-glucosidase activity was evaluated by a photometric method. MAIN OUTCOME MEASURE(S): Seminal plasma CRISP1 levels, NAG activity, cutoff value, sensitivity, and specificity. RESULT(S): All seminal plasma samples from normospermic and nonobstructive azoospermic donors were CRISP1 positive, whereas CRISP1 was absent or present at low levels in samples from patients with OA. A significant correlation between seminal CRISP1 levels and NAG activity was found in azoospermic semen samples. The cutoff point to distinguish between donors with NOA or OA was established at 0.655 (relative intensity). At this threshold, specificity was 85% and sensitivity was 92%. CONCLUSION(S): Seminal CRISP1 combined with NAG activity can potentially distinguish between OA and NOA.

microRNA signature is altered in both human epididymis and seminal microvesicles following vasectomy.

STUDY QUESTION: Does vasectomy impact microRNA (miRNA) expression in the epididymis and seminal microvesicles (SMVs) in a non-reversible manner? SUMMARY ANSWER: The miRNA signature in the epididymis and SMVs is altered by vasectomy and only partially restored after vasovasostomy surgery. WHAT IS KNOWN ALREADY: Vasectomy modifies the epididymal transcriptome and triggers non-reversible changes that affect sperm function. Some vasovasostomized men experience a reduced fertility outcome. STUDY DESIGN, SIZE, DURATION: Human epididymides provided by three control donors and three vasectomized donors were collected under artificial circulation through Transplant Quebec (Quebec, QC, Canada). Semen from three normal, three vasectomized and five vasovasostomized donors was provided by the andrology clinic. PARTICIPANTS/MATERIALS, SETTING, METHODS: Epididymides and semen were collected from donors between 26 and 50 years of age with no known pathologies that could potentially affect reproductive function. After RNA extraction, epididymal miRNA profiles were determined by microarray (Affimetrix), compared by ANOVA and confirmed by real-time PCR. The correlation between miRNA and gene expression profiles was investigated by an integrated genomic approach. miRNA signature from purified SMVs was established by microarray. MAIN RESULTS AND THE ROLE OF CHANCE: Vasectomy significantly modified the expression of epididymal miRNAs, which were mainly correlated with mRNAs for transcription factors. Vasectomy also impacted the detection of 118 of the miRNAs found in SMVs from normal donors, including miRNAs of epididymal origin contained in epididymosomes. Among seminal miRNAs changes, 52 were reversible according to the expression levels of miRNA in the semen samples from vasovasostomized donors, while 66 were non-reversible. LIMITATIONS, REASONS FOR CAUTION: Identification of miRNAs responsive to vasectomy was determined with a limited number of samples due to the low number of human specimen samples available. WIDER IMPLICATIONS OF THE FINDINGS: According to the critical role played by miRNAs in all biological systems, we believe that miRNA changes occurring upstream and downstream of the vasectomy site may be related to the reduced fertility outcome reported following surgically successful vasectomy reversal. This study may provide new tools for predicting vasovasostomy success and open avenues for the identification of the molecular players involved in male infertility.

Role of microRNAs in controlling gene expression in different segments of the human epididymis.

BACKGROUND: The molecular mechanisms implicated in regionalized gene expression in the human epididymis have not yet been fully elucidated. Interestingly, more than 200 microRNAs (miRNAs) have been identified in the human epididymis and could be involved in the regulation of mRNA stability and post-transcriptional expression in this organ. METHODS: Using a miRNA microarray approach, we investigated the correlation between miRNA signatures and gene expression profiles found in three distinct regions (caput, corpus and cauda) of human epididymides from 3 donors. In silico prediction of transcript miRNA targets was performed using TargetScan and Miranda software's. FHCE1 immortalized epididymal cell lines were cotransfected with mimic microRNAs and plasmid constructs containing the 3'UTR of predicted target genes downstream of the luciferase gene. RESULTS: We identified 35 miRNAs differentially expressed in the distinct segments of the epididymis (fold change ≥2, P-value ≤ 0.01). Among these miRNAs, miR-890, miR-892a, miR-892b, miR-891a, miR-891b belonging to the same epididymis-enriched cluster located on the X chromosome, are significantly more expressed in the corpus and cauda regions than in the caput. Interestingly, a strong negative correlation (r = -0,89, P-value ≤ 0.001) was found between the pattern of expression of miR-892b and its potential mRNA target Esrrg (Estrogen Related Receptor Gamma) and with miR-145 and Cldn10 mRNA (r = -0,92, P-value ≤ 0.001). We confirmed that miR-145 and miR-892b inhibit the expression of the luciferase reporter via Cldn10 and Esrrg 3' UTRs, respectively. CONCLUSION: Our study shows that the expression of miRNAs is segmented along the human epididymis and correlates with the pattern of target gene expression in different regions. Therefore, epididymal miRNAs may be in control of the maintenance of gene expression profile in the epididymis, which dictates segment-specific secretion of proteins and establishes physiological compartments that directly or indirectly affect sperm maturation and fertility.

Gene expression in the epididymis of normal and vasectomized men: what can we learn about human sperm maturation?

Anatomically, the human epididymis is unusual when compared with the excurrent duct of other eutherian mammals. Furthermore, clinical observations suggest that it may not be as important for sperm maturation as is the case for laboratory animals. In contrast, hierarchical clustering of microarray data of epididymides from normal men revealed 2274 modulated qualifiers between the epididymal segments, 1184, 713, and 269 of them being highly expressed in the caput, corpus, and cauda, respectively. The organization of qualifiers according to their similarities by gene ontology indicated that caput transcripts are dedicated to cell-cell adhesion, whereas the corpus is characterized by genes involved in response to other organisms (ie, defense mechanisms) and the cauda transcriptome is specialized in muscle contraction and establishment of localization. A region-specific gene expression pattern thus characterizes the human epididymis as in animal models. In humans, vasectomies have consequences on the epididymal transcriptome. Cluster analysis revealed that 1363 genes are expressed in both normal and vasectomized epididymides, whereas 911 and 660 of them are specifically expressed in normal and vasectomized epididymides, respectively. Three of the affected genes are particularly interesting because of their involvement in sperm biochemical remodeling during epididymal transit: dicarbonyl/l-xylulose reductase, Niemann-Pick disease, type C2, and cysteine-rich secretory protein 1. In some vasovasostomized men, these modifications in gene expression induced by vasectomy are irreversible, thus affecting the biochemical parameters, and potentially, the function of their ejaculated sperm. This may explain the discrepancies between a surgically successful vasovasostomy and fertility recovery.

Vasectomy affects cysteine-rich secretory protein expression along the human epididymis and its association with ejaculated spermatozoa following vasectomy surgical reversal.

The epididymis is essential for the acquisition of sperm fertilizing ability and forward motility. After vasectomy, the flux and composition of the epididymal fluid are modified, causing possible sequelae to the occluded excurrent duct. Some of these sequelae may not be reversible following vasovasostomy, affecting sperm physiology and their fertilizing ability. We previously demonstrated that the epididymal expression in men of a major glycoprotein secreted by the epididymis, cysteine-rich secretory protein 1 (CRISP1), and its encoding mRNA are affected by vasectomy. In this study we showed that following vasectomy, the increased level of CRISP1 is not due to a secretory defect but to its accumulation in the intraluminal compartment of the cauda epididymidis. Western blot analyses were performed to determine the amount of CRISP1 associated with spermatozoa of men who had undergone surgical vasectomy reversal. Spermatozoa of vasovasostomized men are characterized by a significant increase (P < .05) in CRISP1 levels when compared with normal donors. There was no linear correlation between CRISP1 levels and the period of time elapsed between vasectomy and vasovasostomy. CRISP1 was also present in seminal plasma of normal and vasovasostomized men, but not in vasectomized individuals. The soluble concentration of CRISP1 was significantly higher (P < .05) in seminal plasma of vasovasostomized men when compared with normal men. Knowing that one of the proposed functions of CRISP1 is to modulate sperm capacitation, we evaluated the level of tyrosine protein phosphorylation of 2 AXAP proteins of the fibrous sheath, p81 and p105. Spermatozoa of vasovasostomized men were characterized by a 50% increase of protein tyrosine phosphorylation when compared to spermatozoa of normal men (P < .05). Our results are discussed with regard to the fertilizing ability of ejaculated spermatozoa of some vasovasostomized men.

Effects of vasectomy on gene expression profiling along the human epididymis.

Worldwide, almost 100 million men rely on vasectomy for male contraceptive purposes. Due to changes in their personal lives, an increasing number of these men request surgical vasectomy reversal. Unfortunately, a significant proportion of these men remain infertile, despite the reestablishment of patent ducts, possibly due to epididymal damage caused by vasectomy. In animal models, vasectomy affects different epididymal physiological and biochemical parameters. However, the consequences of vasectomy on epididymal function are poorly understood. Furthermore, results obtained with animal models cannot be extrapolated to humans to understand the consequences of vasectomy on epididymal function. Gene expression along the epididymis is highly regulated. We previously showed that the human epididymal expression pattern of two genes is altered after vasectomy. To complete the list of epididymal genes affected by vasectomy, we analyzed the epididymal gene expression pattern of three vasectomized donors using the Affymetrix human GeneChip U133 Plus 2. These results were compared with the gene expression pattern of three "normal" donors. The data generated allowed the identification of many human epididymal genes for which expression is modified after vasectomy. Quantitative (Qt)-PCR and Western blot analysis of six selected genes known to be expressed in specific epididymal segments were performed. The Qt-PCR results confirmed the selected transcripts expression pattern deduced from microarray data. However, Western blot analysis revealed some differences in protein distribution along the epididymis when compared with the encoding transcripts expression pattern. These results contribute to an understanding of the reasons why fertility is not recovered in vasovasostomized men, even though spermogram values suggest surgical success of vasectomy reversal.

Epididymal P34H protein deficiency in men evaluated for infertility.

Our study aimed to compare the frequency of epididymal protein P34H deficiency in a population of men undergoing routine infertility evaluation with that in men with proven fertility. Our results suggest that a significant proportion of men investigated for male infertility may be epididymal protein P34H deficient.

HE1/NPC2 status in human reproductive tract and ejaculated spermatozoa: consequence of vasectomy.

We have previously demonstrated that the amount of HE1/NPC2 mRNA and protein expressed in the human epididymis is decreased under vasectomy. In this study, western blot analyses showed that many vasovasostomized men are characterized by high HE1/NPC2 levels in spermatozoa when compared with fertile donors. HE1/NPC2 association with sperm from vasovasostomized men was not related to low motility per se as spermatozoa from asthenospermic men have HE1/NPC2 levels similar to those in normal fertile semen samples. Spermatozoa from vasovasostomized men with high amount of HE1/NPC2 are characterized by higher concentration of cholesterol and more lipid raft domains. HE1/NPC2 is secreted in different glycoforms by different tissues of human male reproductive tract. These forms are due to variation in N-glycosylation, and only the deglycosylated form is associated with spermatozoa from some vasovasostomized men. Compared with normal men, seminal plasma of vasectomized men is characterized by a major decrease in immunodetectable HE1/NPC2 without change in the glycosylation pattern. Following surgical vasectomy reversal, seminal plasma HE1/NPC2 was found in similar amounts to the ones characterizing normal men. Considering the potential role of HE1/NPC2 in cholesterol transport during sperm maturation, unusual high levels of this protein associated with spermatozoa of vasovasostomized men may reflect epididymal sequelae occurring when the vas deferens is obstructed.

Levels of P34H, a sperm protein of epididymal origin, as a predictor of conventional in vitro fertilization outcome.

A prospective double-blind study was performed to determine if Western blot detection of P34H, a sperm protein of epididymal origin that is involved in the binding to the zona pellucida, is predictive of standard IVF outcome. Our results demonstrate that the proportion of positive P34H cases that produced embryos in vitro clearly differs from cases with undetectable levels of P34H (P<.001).

Membranous and structural damage that occur during cryopreservation of human sperm may be time-related events.

OBJECTIVE: To evaluate sperm cryopreservation-induced injuries using sperm plasma membrane protein P34H and alpha-tubulin as two different subcellular compartment markers. DESIGN: Prospective experimental study. SETTING: Academic hospital research center and fertility clinic. PATIENT(S): Semen samples obtained from healthy donors attending the fertility clinic. Sperm samples were either directly processed for sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot experiments (control group) or cryopreserved in liquid nitrogen for different periods of time before being analyzed. INTERVENTION(S): SDS-PAGE, Western blotting, and densitometric quantification of P34H and alpha-tubulin before and after cryopreservation. MAIN OUTCOME MEASURE(S): Changes in protein quantification between the different groups as a result of sperm cryopreservation. RESULT(S): In the 31 sperm samples processed for P34H evaluation, a 50% decrease is observed after sperm cryopreservation as compared to the control group. The alpha-tubulin immunoblotting of 41 sperm samples revealed a 200% increase in the protein detection in the group of cryopreserved sperm as compared to the control group. Contrary to the P34H detection, this change in alpha-tubulin immunodetected levels appears to be related to the cryopreservation period as it increases during storage. CONCLUSION(S): These findings indicate that cryopreservation of human semen induces damages at different cellular levels. Moreover, some cryoinjuries are immediate although others seem to take place over time stored in liquid nitrogen.

Contraceptive responses of female hamsters immunized with recombinant sperm protein P26h.

BACKGROUND: A number of antigens have been characterized and proposed as potential candidates for immunocontraception. P26h, a 26-kDa hamster sperm protein located on the acrosomal cap, is known to be involved in sperm-zona pellucida interactions. Furthermore, in vivo fertilization can be blocked by active immunization of male hamsters against P26h or maltose-binding protein recombinant P26h (MBP-P26h). OBJECTIVE: The aim of this study was to investigate the immune response and reproductive function of female hamsters immunized against MBP-P26h. RESULTS: Active immunization against MBP-P26h resulted in anti-P26h circulating antibodies, with enzyme-linked immunosorbent assay (ELISA) titers showing interindividual variability. The antibodies produced by the animals immunized against MBP-P26h reacted with the native P26h protein in ELISA, in Western blot analysis and in immunostaining performed on cauda epididymal spermatozoa. Mating of immunized female hamsters resulted in a significant decrease in the number of viable fetuses only in females with high titers of anti-P26h circulating antibodies. DISCUSSION: This result is in agreement with the sperm-zona pellucida binding assay's results. Indeed, sera collected from immunized animals, and not from control animals, significantly blocked sperm-zona pellucida binding in vitro. Histological studies showed that active immunization did not cause any pathology in the reproductive tissues. CONCLUSION: These findings suggest that P26h is a potential candidate for the development of a contraceptive vaccine in both males and females.

Macrophage migration inhibitory factor in the human epididymis and semen.

During epididymal transit, mammalian spermatozoa acquire new proteins involved in the acquisition of motility and of male gamete fertilising ability. We have previously shown that membranous vesicles called epididymosomes are involved in the transfer of epididymal-originating proteins to spermatozoa. The cytokine macrophage migration inhibitory factor (MIF) is one of these proteins but the role played by MIF in relation to epididymal sperm maturation still remains unclear. As this protein has already been shown to bear different functions depending on its location, we investigated its distribution along the epididymis and in different compartments of human semen. Northern and Western blot analysis as well as immunohistochemical studies show that MIF is expressed all along the epididymis with a higher level of transcript in the proximal segment. MIF is associated with two types of membranous vesicles, i.e. epididymosomes and prostasomes, the latter being prostate-originating membranous vesicles present in the semen. In semen, MIF is associated with spermatozoa, prostasomes as well as the soluble fraction. The amount of MIF in the seminal fluid varies from one individual to another but does not correlate with the amount of MIF associated with ejaculated spermatozoa. There is a negative correlation between the amount of sperm-associated MIF and the percentage of motility in different semen samples. Sperm separation using discontinuous Percoll gradient centrifugation shows a higher amount of MIF associated with poorly motile spermatozoa compared to highly motile spermatozoa present in the lower Percoll fraction. These results are discussed with regards to the possible involvement of MIF in sperm motility acquisition during the epididymal transit.