Analysis of proteomic changes associated with sperm capacitation through the combined use of IPG-strip pre-fractionation followed by RP chromatography LC-MS/MS analysis.

Following ejaculation, mammalian spermatozoa undergo an obligatory process known as capacitation, which enables these cells to bind to and fertilize an oocyte. Since spermatozoa are transcriptionally and translationally silent, the functional metamorphosis of these cells during capacitation is accomplished entirely by PTMs. Despite the importance of this process, very few studies have attempted to define the precise nature of the proteomic changes that allow spermatozoa to attain a capacitated state. Here we report the use of an IPG-strip pre-fractionation approach to isolate and purify tryptic peptides derived from mouse spermatozoa exhibiting varying degrees of capacitation. Following focusing, the strips were cut into 1 cm segments, the peptides extracted and run into a mass spectrometer. Label-free, quantitative analysis of proteomic changes associated with capacitation was then performed. In total, we found 210 significant peptide changes. Of these, we could conclusively interpret the tandem mass spectra of 71 peptides, corresponding to 52 protein changes during capacitation. Many proteins including VDAC2, Fascin-3 and sorbitol dehydrogenase (SORD) have not previously been implicated in this process. To validate our data, we were able to show significant upregulation of SORD activity during capacitation, suggesting that the polyol pathway is activated during this process.

The rat sperm proteome characterized via IPG strip prefractionation and LC-MS/MS identification.

Proteomics represents a powerful tool for the analysis of mammalian spermatozoa, since these terminally differentiated cells are transcriptionally inactive and exhibit a limited dynamic range of protein expression. Here we report the identification of 5123 peptides, leading to 829 unambiguous and 2215 redundant gene products found to be present within rat spermatozoa derived from the cauda epididymis. Bioinformatics demonstrated that 60 proteins appeared to be specifically expressed in the genitourinary tract, including pyruvate dehydrogenase 1, ropporin, testis-specific serine kinase 4, testis-specific transporter, and retinol dehydrogenase 14. We also identified eight members of the ADAM family, seven of which have previously been detected in spermatozoa (ADAM2, -3, -4, -5, -6, -7, and -30) while ADAM34 has been identified in the sperm proteome for the first time. Approximately 21 gene products were found to possess isomerase activity including peptidylprolyl cis/trans isomerases that are known to be involved in germ cell differentiation and protein disulfide isomerases that have been implicated in sperm-oocyte fusion. Furthermore, 51 gene products clustered into ion-transporter activity. This inventory of gene products, the first ever 2-D LC-MS/MS analysis of rat spermatozoa, will be invaluable in directing future research into the molecular mechanisms that drive these highly specialized cells.

The mouse sperm proteome characterized via IPG strip prefractionation and LC-MS/MS identification.

Proteomic profiling of the mouse spermatozoon has generated a unique and valuable inventory of candidates that can be mined for potential contraceptive targets and to further our understanding of the PTMs that regulate the functionality of this highly specialized cell. Here we report the identification of 858 proteins derived from mouse spermatozoa, 23 of which demonstrated testis only expression. The list contained many proteins that are known constituents of murine spermatozoa including Izumo, Spaca 1, 3, and 5, Spam 1, Zonadhesin, Spesp1, Smcp, Spata 6, 18, and 19, Zp3r, Zpbp 1 and 2, Spa17, Spag 6, 16, and 17, CatSper4, Acr, Cylc2, Odf1 and 2, Acrbp, and Acrv1. Certain protein families were highly represented in the proteome. For example, of the 42 gene products classified as proteases, 26 belonged to the 26S-proteasome. Of the many chaperones identified in this proteome, eight proteins with a TCP-1 domain were found, as were seven Rab guanosine triphosphatases. Finally, our list yielded three putative seven-transmembrane proteins, two of which have no known tissue distribution, an extragenomic progesterone receptor and three unique testis-specific kinases all of which may have some potential in the future regulation of male fertility.

Identification of gene products present in Triton X-100 soluble and insoluble fractions of human spermatozoa lysates using LC-MS/MS analysis.

A comprehensive analysis of the proteins found in human spermatozoa is essential for understanding the events leading up to, and including, fertilization and development. Proteomics offers a platform for investigating this process, provided that the dynamic range is relatively low. In this report, spermatozoa from a number of human sperm ejaculates were isolated in a pure state using discontinuous Percoll gradient centrifugation. Triton X-100 soluble and insoluble proteins were recovered and separated by SDS-PAGE. The separation lanes were dissected into 96 fractions and analyzed individually by LC-MS(n) . A comprehensive protocol, involving LC-MS/MS analysis eventually down to the ninth most intense peak found in the MS-survey scan, was performed. Analysis of purified human sperm populations resulted in the identification of 1056 gene products, of which approximately 8% have not previously been characterized. The data were supported by the large number of proteins represented by expressed sequence tags in the testis. Bioinformatic analysis demonstrated that 437 of the gene products were involved in various metabolic pathways including glycolysis and oxidative phosphorylation. The inventory of proteins present in the human sperm proteome includes a number of notable discoveries including the first description of a nicotinamide adenine dinucleotide phosphate oxidase, dual-oxidase 2, finally laying to rest any doubts about the presence of such enzymes in spermatozoa. Furthermore, a number of different classes of receptor have also been detected in these cells and are potential regulators of sperm function. This list includes at least six seven-pass transmembrane receptors, six tyrosine kinase receptors, a tyrosine phosphatase receptor, glutamate-gated ion channel receptors, transient receptor potential cation channels, and a non-genomic progesterone receptor. This is the first published list of identified proteins in human spermatozoa using LC-MS/MS analysis.