Impaired spermatogenesis and fertility in mice carrying a mutation in the Spink2 gene expressed predominantly in testes

Spermatogenesis is a complex process involving an intrinsic genetic program composed of germ cell-specific and -predominant genes. In this study, we investigated the mouse Spink2 (serine protease inhibitor Kazal-type 2) gene, which belongs to the SPINK family of proteins characterized by the presence of a Kazal-type serine protease inhibitor-pancreatic secretory trypsin inhibitor domain. We showed that recombinant mouse SPINK2 has trypsin-inhibitory activity. Distribution analyses revealed that Spink2 is transcribed strongly in the testis and weakly in the epididymis, but is not detected in other mouse tissues. Expression of Spink2 is specific to germ cells in the testis and is first evident at the pachytene spermatocyte stage. Immunoblot analyses demonstrated that SPINK2 protein is present in male germ cells at all developmental stages, including in testicular spermatogenic cells, testicular sperm, and mature sperm. To elucidate the functional role of SPINK2 in vivo, we generated mutant mice with diminished levels of SPINK2 using a gene trap mutagenesis approach. Mutant male mice exhibit significantly impaired fertility; further phenotypic analyses revealed that testicular integrity is disrupted, resulting in a reduction in sperm number. Moreover, we found that testes from mutant mice exhibit abnormal spermatogenesis and germ cell apoptosis accompanied by elevated serine protease activity. Our studies thus provide the first demonstration that SPINK2 is required for maintaining normal spermatogenesis and potentially regulates serine protease-mediated apoptosis in male germ cells.     

Proteomic analysis of N‐glycosylation of human seminal plasma

Seminal plasma is a mixture of secretions from several male accessory glands. The seminal plasma contains many secreted proteins which are important for sperm function and male fertility. In this study, we employed N‐linked glycosylated peptide enrichment, combined with LC–MS/MS analysis, and establish the first large scale N‐linked glycoproteome of human seminal plasma. Combined with the results of five biological replicates, a total of 720 N‐glycosylated sites on 372 proteins were identified. Analysis of variations among five individuals revealed similar compositions of N‐glycosylated proteins in seminal plasma. The N‐linked glycoproteome could help us understanding the biological functions of human seminal plasma. The data set could also be a resource for further screening of biomarkers for male diseases including cancer and infertility at the level of N‐glycosylation. For example, N‐glycosylated prostate‐specific antigen is known to be an efficient biomarker that can distinguish benign prostate hyperplasia from prostate cancer. All MS data have been deposited in the ProteomeXchange with identifier PXD000959 ( http://proteomecentral.proteomexchange.org/dataset/PXD000959 ).     

A SELDI‐TOF MS procedure for the detection,quantitation, and preliminary characterization of low‐molecular‐weight recombinant proteins expressed in transgenic plants

We describe a SELDI‐TOF MS procedure for the rapid detection and quantitation of low‐molecular‐weight recombinant proteins expressed in plants. Transgenic lines of potato (Solanum tuberosum L.) expressing the clinically useful protein bovine aprotinin or the cysteine protease inhibitor corn cystatin II were generated by Agrobacterium tumefaciens‐mediated transformation, and then used as test material for the analyses. Real‐time RT‐PCR amplifications and detection of the recombinant proteins by immunoblotting were first conducted for transformed potato lines accumulating the proteins in different cell compartments. Both proteins were found at varying levels in leaves, depending on their final cellular destination and transgene expression rate. These conclusions drawn from standard immunodetection assays were easily confirmed by SELDI‐TOF MS comparative profiling, after immobilizing the leaf proteins of control and transformed lines on protein biochips for weak cationic exchange. This procedure, carried out in less than 2 h, allows for the rapid comparison of recombinant protein levels in transgenic plant lines. The molecular weight of immobilized proteins can also be determined directly from the MS spectra, thus providing a simple way to assess the structural integrity and homogeneity of recombinant proteins in planta, and to identify the most suitable cellular compartments for their heterologous production.     

Serine peptidase inhibitor Kazal type I (SPINK1) promotes BRL‐3A cell proliferation via p38, ERK,and JNK pathways

Serine peptidase inhibitor Kazal type I (SPINK1) has the similar spatial structure as epidermal growth factor (EGF); EGF can interact with epidermal growth factor receptor (EGFR) to promote proliferation in different cell types. However, whether SPINK1 can interact with EGFR and further regulate the proliferation of hepatocytes in liver regeneration remains largely unknown. In this study, we investigated the role of SPINK1 in a rat liver hepatocyte line of BRL‐3A in vitro. The results showed the upregulation of endogenous Spink1 (gene addition) significantly increased not only the cell viability, cell numbers in S and G₂/M phase, but also upregulated the genes/proteins expression related to cell proliferation and anti‐apoptosis in BRL‐3A. In contrast, the cell number in G₁ phase and the expression of pro‐apoptosis‐related genes/proteins were significantly decreased. The similar results were observed when the cells were treated with exogenous rat recombinant SPINK1. Immunoblotting suggested SPINK1 can interact with EGFR. By Ingenuity Pathway Analysis software, the SPINK1 signalling pathway was built; the predicted read outs were validated by qRT‐PCR and western blot; and the results showed that p38, ERK, and JNK pathways‐related genes/proteins were involved in the cell proliferation upon the treatment of endogenous Spink1 and exogenous SPINK1. Collectively, SPINK1 can associate with EGFR to promote the expression of cell proliferation‐related and anti‐apoptosis‐related genes/proteins; inhibit the expression of pro‐apoptosis‐related genes/proteins via p38, ERK, and JNK pathways; and consequently promote the proliferation of BRL‐3A cells. For the first time, we demonstrated that SPINK1 can associate with EGFR to promote the proliferation of BRL‐3A cells via p38, ERK, and JNK pathways. This work has direct implications on the underlying mechanism of SPINK1 in regulating hepatocytes proliferation in vivo and liver regeneration after partial hepatectomy.     

Purification of human seminal acrosin inhibitor and its kinetics

A low molecular mass, naturally occurring acrosin inhibitor has been identified and purified (490-7-fold) from human semen, and kinetic studies have been performed on the association characteristics as well as for the determination of affinity constants (K _i values). The results show thatK _i value (3.34 × 10⁻²) of the inhibitor towards human acrosin is almost three times lower than that of pancreatic trypsin, indicating a much higher specificity and inhibitory property for acrosin. The purified human seminal acrosin inhibitor has a molecular mass of 5.5 kDa and shows a single band using 10–20% gradient SDS PAGE. The work is of great significance for the development of more specific, nontoxic and irreversible inhibitors for human acrosin.     

Spink13, an Epididymis-specific Gene of the Kazal-type Serine Protease Inhibitor (SPINK) Family,Is Essential for the Acrosomal Integrity and Male Fertility

Sperm maturation involves numerous surface modifications by a variety of secreted proteins from epididymal epithelia. The sperm surface architecture depends on correct localization of its components and highlights the importance of the sequence of the proteolytic processing of the sperm surface in the epididymal duct. The presence of several protease inhibitors from different families is consistent with the hypothesis that correctly timed epididymal protein processing is essential for proper sperm maturation. Here we show that the rat (Rattus norvegicus) epididymis-specific gene Spink13, an androgen-responsive serine protease inhibitor, could bind to the sperm acrosome region. Furthermore, knockdown of Spink13 in vivo dramatically enhanced the acrosomal exocytosis during the process of capacitation and thus led to a significant reduction in male fertility, indicating that Spink13 was essential for sperm maturation. We conclude that blockade of SPINK13 may provide a new putative target for post-testicular male contraceptives.     

Identification of differentially accumulating pistil proteins associated with self‐incompatibility of non‐heading Chinese cabbage

Non‐heading Chinese cabbage (Brassica campestris L. ssp. chinensis Makino), an important vegetable crop in China, exhibits a typical sporophytic self‐incompatibility (SI) system. To better understand the mechanism of SI response and identify potential candidate proteins involved in the SI system of this vegetable crop, the proteomic approach was taken to identify differential accumulating pistil proteins. Pistils were collected at 0 h and 2 h after self‐pollination at anthesis in self‐incompatible and compatible lines of non‐heading Chinese cabbage, and total proteins were extracted and separated by two‐dimensional gel electrophoresis (2‐DE). A total of 25 protein spots that displayed differential abundance were identified by matrix‐assisted laser desorption/ionisation‐time of flight mass spectrometry (MALDI–TOF/TOF MS) and peptide mass fingerprinting (PMF). Among them, 22 protein spots were confidently established. The mRNA levels of the corresponding genes were detected by quantitative RT‐PCR. The 22 identified protein spots are involved in energy metabolism (four), protein biosynthesis (three), photosynthesis (six), stress response and defence (five), and protein degradation (four). Among these potential candidate proteins, UDP‐sugar pyrophosphorylase could be involved in sucrose degradation to influence pollen germination and growth. Glutathione S–transferases could be involved in pollen maturation, and affect pollen fertility. Senescence‐associated cysteine protease, which is related to programmed cell death, could be mainly related to self pollen recognition of non‐heading Chinese cabbage. The study will contribute to further investigations of molecular mechanism of sporophytic SI in Brassicaceae.     

An acrosin inhibitor in ram spermatozoa that does not originate from the seminal plasma.

Ram seminal plasma, and ejaculated ram spermatozoa that have been washed with 0.25M sucrose, both contain acrosin inhibitor. The aim of this work was to determine whether the intracellular inhibitor originates from the seminal plasma. The amounts of inhibitor in ejaculated and epididymal spermatozoa were measured and compared with the amounts present in the seminal plasma of normal and vasectomized rams. One ejaculated ram spermatozoon contained 2.1 amol (2.1 X 10(-18) mol) of inhibitor and one epididymal spermatozoon contained 3.3 amol of inhibitor. (All molarities are mean values based on pooled ram semen or on single ejaculates from three vasectomized rams.) Calculations from results in earlier publications indicated that one ejaculated ram spermatozoon contains about 3 amol of acrosin; thus the inhibitor: acrosin ratio in washed ram spermatozoa is approximately 1. One ml of ram semen contains, on average, 3 X 10(9) spermatozoa and not more than 0.8 ml of seminal plasma. This number of ejaculated spermatozoa would contain 6.3 nmol of inhibitor, while the same number of epididymal spermatozoa would contain 9.9 nmol of inhibitor. These values exceed the quantities of inhibitor present in 0.8 ml of normal seminal plasma (approximately 1.6 nmol) or in 0.8 ml of seminal plasma from vasectomized rams (approximately 2.3 nmol). We conclude that seminal plasma is not a major source of the acrosin inhibitor that can be recovered from washed ejaculated ram spermatozoa.     

Purification and characterization of fertility‐associated antigen (FAA) in bovine seminal fluid

Heparin‐binding proteins (HBP) recognized by a monoclonal antibody (M1) are produced by male accessory sex glands and bind to distinct regions of ejaculated bull sperm. Immunoblots of sperm proteins probed with M1 identified HBP variants of approximately 31‐, 24‐, and 21.5‐kDa that were associated with increased fertility of bulls. The purpose of this study was to identify the 31‐kDa HBP known as fertility‐associated antigen (FAA). FAA was isolated by heparin‐affinity chromatography and reversed‐phase high performance liquid chromatography near homogeneity. Biochemical characterization indicated that FAA was an unglycosylated, basic protein. FAA protein was detected in seminal vesicle and prostate gland homogenates, and FAA extracted from sperm membranes by treatment with hypertonic media was identical biochemically to seminal fluid‐derived FAA. N‐terminal sequence analysis of purified FAA yielded a 26 amino acid sequence (L K I X S F N V R S F G E S K K A G F N A M R V I V) with 73% identity to a recently identified human deoxyribonuclease (DNase) I‐like protein. Two internal amino acid sequences generated from lys‐C digested FAA were 85% and 92% identical to the same DNase I‐like protein. In conclusion, we have identified a bovine seminal heparin‐binding protein that binds to sperm and is indicative of bull fertility as being similar to the family of DNase I‐like proteins. These data demonstrate the presence of a novel DNase I‐like protein in bull accessory sex glands and form the groundwork for the identification of a candidate genetic marker for fertility of bulls. Mol. Reprod. Dev. 54:145–153, 1999. © 1999 Wiley‐Liss, Inc.     

Targeted gene deletion and phenotypic analysis of the Drosophila melanogaster seminal fluid protease inhibitor Acp62F

Internally fertilizing organisms transfer a complex assortment of seminal fluid proteins, a substantial fraction of which are proteolysis regulators. In mammals, some seminal protease inhibitors have been implicated in male infertility and these same molecular classes of protease inhibitors are also found in Drosophila seminal fluid. Here, we tested the reproductive functions of the Drosophila melanogaster seminal fluid protease inhibitor Acp62F by generating a precise deletion of the Acp62F gene. We did not detect a nonredundant function for Acp62F in modulating the egg laying, fertility, remating frequency, or life span of mated females. However, loss of Acp62F did alter a male's defensive sperm competitive ability, consistent with the localization of Acp62F to sperm storage organs. In addition, the processing of at least one seminal protein, the ovulation hormone ovulin, is slower in the absence of Acp62F.     

Automated measurement of site‐specific N‐glycosylation occupancy with SWATH‐MS

Asparagine‐linked glycosylation is a common post‐translational modification of proteins catalyzed by oligosaccharyltransferase that is important in regulating many aspects of protein function. Analysis of protein glycosylation, including glycoproteomic measurement of the site‐specific extent of glycosylation, remains challenging. Here, we developed methods combining enzymatic deglycosylation and protease digestion with SWATH‐MS to enable automated measurement of site‐specific occupancy at many glycosylation sites. Deglycosylation with peptide‐endoglycosidase H, leaving a remnant N‐acetylglucosamine on asparagines previously carrying high‐mannose glycans, followed by trypsin digestion allowed robust automated measurement of occupancy at many sites. Combining deglycosylation with the more general peptide‐N‐glycosidase F enzyme with AspN protease digest allowed robust automated differentiation of nonglycosylated and deglycosylated forms of a given glycosylation site. Ratiometric analysis of deglycosylated peptides and the total intensities of all peptides from the corresponding proteins allowed relative quantification of site‐specific glycosylation occupancy between yeast strains with various isoforms of oligosaccharyltransferase. This approach also allowed robust measurement of glycosylation sites in human salivary glycoproteins. This method for automated relative quantification of site‐specific glycosylation occupancy will be a useful tool for research with model systems and clinical samples.     

Primordial germ cell‐specific expression of eGFP in transgenic chickens

PR domain zinc finger protein 14 (PRDM14) plays an essential role in the development of primordial germ cells (PGCs) in mice. However, its functions in avian species remain unclear. In the present study, we used CRISPR/Cas9 to edit the PRDM14 locus in chickens in order to demonstrate its importance in development. The eGFP gene was introduced into the PRDM14 locus of cultured chicken PGCs to knockout PRDM14 and label PGCs. Chimeric chickens were established by a direct injection of eGFP knocked‐in (gene‐trapped) PGCs into the blood vessels of Hamburger–Hamilton stages (HH‐stages) 13–16 chicken embryos. Gene‐trapped chickens were established by crossing a chimeric chicken with a wild‐type hen with very high efficiency. Heterozygous gene‐trapped chickens grew normally and SSEA‐1‐positive cells expressed eGFP during HH‐stages 13–30. These results indicated the specific expression of eGFP within circulating PGCs and gonadal PGCs. At the blastodermal stage, the ratio of homozygous gene‐trapped embryos obtained by crossing heterozygous gene‐trapped roosters and hens was almost normal; however, all embryos died soon afterward, suggesting the important roles of PRDM14 in chicken early development.     

Identification and quantification of proteins differentially secreted by a pair of normal and malignant breast‐cancer cell lines

Secreted proteins play a pivotal role in cellular functions. To better understand malignant behavior, we adapted stable isotopic labeling with amino acids in cell culture technology to identify and quantify proteins differentially released into the extracellular media by a pair of normal and malignant breast‐cancer cell lines. Approximately 380 non‐redundant proteins were quantified in serum‐free media. Of the assigned proteins, 62% are classified secreted in protein databases and an additional 25% are designated secreted in the literature. A number of growth factors were found differentially regulated. Tumor necrosis factor, pigment epithelial‐differentiating factor and stem‐cell growth factor precursor showed decreased expression in breast‐cancer cell line, whereas Inhibin beta and macrophage migration inhibitory factor show increased expression. Interestingly, protease inhibitors, including plasma protease (C1) inhibitor, PZP precursor, and SerpinE2 were significantly down‐regulated in cancer cell line as were angiostatic factors from extracellular matrix (ECM) such as endorepillin. Further, the C‐terminal fragment of type XVIII collagen, endostatin, a potent angiostatic factor, was down‐regulated as well whereas extracellular collagens and osteoblast‐specific factor 2 (OSF‐2), were up‐regulated. Differential expression and secretion of SerpinE2 and OSF‐2 were confirmed using Western blotting. These results corroborate models of invasive tumors sustained by elaborate coordination of stromal cells via chemokines and growth factors, while protease inhibitors remodel the ECM to stimulate angiogenesis.     

Identification of differentially expressed proteins by treatment with PUGNAc in 3T3‐L1 adipocytes through analysis of ATP‐binding proteome

O‐GlcNAc (2‐acetamino‐2‐deoxy‐β‐D‐glucopyranose), an important modification for cellular processes, is catalyzed by O‐GlcNAc transferase and O‐GlcNAcase. O‐(2‐acetamido‐2‐deoxy‐D‐glucopyranosylidene) amino‐N‐phenylcarbamate (PUGNAc) is a nonselective inhibitor of O‐GlcNAcase, which increases the level of protein O‐GlcNAcylation and is known to induce insulin‐resistance in adipose cells due to uncharacterized targets of this inhibitor. In this study, using ATP affinity chromatography, we applied a targeted proteomic approach for identification of proteins induced by treatment with PUGNAc. For optimization of proteomic methods using ATP affinity chromatography, comparison of two cell lines (3T3‐L1 adipocytes and C2C12 myotubes) and two different digestion steps was performed using four different structures of immobilized ATP‐bound resins. Using this approach, based on DNA sequence homologies, we found that the identified proteins covered almost half of ATP‐binding protein families classified by PROSITE. The optimized ATP affinity chromatography approach was applied for identification of proteins that were differentially expressed in 3T3‐L1 adipocytes following treatment with PUGNAc. For label‐free quantitation, a gel‐assisted method was used for digestion of the eluted proteins, and analysis was performed using two different MS modes, data‐independent (671 proteins identified) and data‐dependent (533 proteins identified) analyses. Among identified proteins, 261 proteins belong to nucleotide‐binding proteins and we focused on some nucleotide‐binding proteins, ubiquitin‐activation enzyme 1 (E1), Hsp70, vasolin‐containing protein (Vcp), and Hsp90, involved in ubiquitin‐proteasome degradation and insulin signaling pathways. In addition, we found that treatment with PUGNAc resulted in increased ubiquitination of proteins in a time‐dependent manner, and a decrease in both the amount of Akt and the level of phosphorylation of Akt, a key component in insulin signaling, through downregulation of Hsp90. In this study, based on a targeted proteomic approach using ATP affinity chromatography, we found four proteins related to ubiquitination and insulin signaling pathways that were induced by treatment with PUGNAc. This result would provide insight into understanding functions of PUGNAc in 3T3‐L1 cells.     

IDENTIFICATION AND EXPRESSION ANALYSIS OF TWO 14‐3‐3 PROTEINS IN THE MOSQUITO Aedes aegypti,AN IMPORTANT ARBOVIRUSES VECTOR

The 14‐3‐3 proteins are evolutionarily conserved acidic proteins that form a family with several isoforms in many cell types of plants and animals. In invertebrates, including dipteran and lepidopteran insects, only two isoforms have been reported. 14‐3‐3 proteins are scaffold molecules that form homo‐ or heterodimeric complexes, acting as molecular adaptors mediating phosphorylation‐dependent interactions with signaling molecules involved in immunity, cell differentiation, cell cycle, proliferation, apoptosis, and cancer. Here, we describe the presence of two isoforms of 14‐3‐3 in the mosquito Aedes aegypti, the main vector of dengue, yellow fever, chikungunya, and zika viruses. Both isoforms have the conserved characteristics of the family: two protein signatures (PS1 and PS2), an annexin domain, three serine residues, targets for phosphorylation (positions 58, 184, and 233), necessary for their function, and nine alpha helix‐forming segments. By sequence alignment and phylogenetic analysis, we found that the molecules correspond to ? and ζ isoforms (Aeae14‐3‐3ε and Aeae14‐3‐3ζ). The messengers and protein products were present in all stages of the mosquito life cycle and all the tissues analyzed, with a small predominance of Aeae14‐3‐3ζ except in the midgut and ovaries of adult females. The 14‐3‐3 proteins in female midgut epithelial cells were located in the cytoplasm. Our results may provide insights to further investigate the functions of these proteins in mosquitoes.     

Analysis of seminal plasma from roosters carrying the Sd (sperm degeneration) allele.

In previous research, subfertile roosters carrying the Sd (sperm degeneration) allele were characterized by malformed proximal efferent ducts. An abnormal biochemical milieu within the excurrent ducts of the testis was inferred. The objective of the present study was to compare seminal plasma composition between mutant (Sd) and normal (sd+) roosters. Phenotypic mutants were selected--on the basis of sperm viability--from a flock of Delaware roosters. After weekly ejaculations, sperm viability was < 60% for mutant roosters as compared to 100% for normal roosters. As reported previously, sperm viability in mutants increased to normal levels after frequent ejaculation. When comparisons were based on semen containing 100% viable spermatozoa, mutants were comparable to normal roosters with respect to sperm concentration and seminal plasma osmolality. Neither genotype was characterized by seminal plasma proteolytic activity at neutral pH. In contrast, seminal plasma from mutants was characterized by an imbalance of electrolytes, amino acids, and protein. Because the rooster lacks accessory sex glands, seminal plasma composition reflects excurrent duct function. Consequently, the abnormal seminal plasma composition of Sd roosters is attributed to excurrent duct dysfunction.