Further characterization of the porcine zona pellucida antigen corresponding to monoclonal antibody 3A4-2G1 exclusively cross-reactive with porcine and human zonae pellucidae

Infertility and Immunocontraception based on zona pellucida

The zona pellucida (ZP) is an extracellular matrix surrounding ovarian oocytes, ovulated eggs and preimplantation embryos. It plays several important roles at different stages of reproduction. Its constituent glycoproteins are expressed specifically in the ovary. It is thus possible to produce autoantibodies to ZP proteins that interfere with reproductive functions including folliculogenesis, fertilization and implantation. First, this article describes the history of anti-ZP antibodies detected in women with idiopathic infertility. Second, the current relationship between anti-ZP antibodies and infertility is discussed in relation to assisted reproductive medicine. Third, we introduce the latest studies of animal experiments involving the ZP. Finally, immunocontraceptive vaccine development using various ZP antigens is reviewed.

Isolation and characterization of a human sperm antigen gene h-Sp-1

We isolated and characterized a human sperm antigen gene (h-Sp-1) from human testis complementary DNA using antiserum against the human sperm membrane. Northern blot analysis detected two transcripts (2.3 and 1.1 kb) of the h-Sp-1 gene. The 2.3-kb transcript is ubiquitous, whereas the 1.1-kb transcript is specific to the human testis with a high level of expression. Determination of the base sequence of h-Sp-1 showed a size of 2170 bp and 43.4% homology with human synaptophysin. The base sequence indicates a molecule consisting of 259 amino acids, with four hydrophilic and four hydrophobic regions. In order to further characterize the h-Sp-1 molecule, we synthesized the probable region of amino acids with high antigenicity based on the amino acid sequence (amino acid nos. 174-198) and immunized rabbits to prepare an antiserum. In our experimental model of fertilization between human sperm and zona pellucida-free hamster ova, partial inhibition of fertilization was observed. We were able to synthesize a large quantity of recombinant protein by inserting the h-Sp-1 gene into a baculovirus vector and infecting spodoptera frugiperda culture cells (sf9 insect cells). The synthesized protein had a molecular weight of 30 kDa. We then immunized Balb/c mice with this protein to prepare a monoclonal antibody (G3G9), which was used to localize the h-Sp-1 molecule in sperm and tissues (e.g. testis). The h-Sp-1 molecule was present in the cell membrane from the head to tail of human sperm. Staining of the testis and epididymis also showed h-Sp-1 to be present in spermatogonia, spermatocyte, sperm and epididymal duct epithelium. These findings suggest that the h-Sp-1 molecule is expressed in sperm and testes and plays a role in fertilization.

Development of a new, highly sensitive zona pellucida binding assay using a bioluminescence-enhanced detection system

To date, two different zona binding assays have been described in the literature. Both assays, however, require a large quantity of human zonae which vary immensely in quality. Furthermore, an inverted microscope with micromanipulation equipment is necessary, which makes both assays relatively complicated and time-consuming, and requires skilled staff. Therefore, we developed a new, highly sensitive zona binding assay using a bioluminescence-enhanced system which employs a pool of solubilized zona pellucida and is easier for routine use. In the detection system, light emission by the luciferin-luciferase system is measured. Because of the limited availability of human zonae pellucidae, this new assay was first developed in the porcine system. The new bioluminogenic substrate D-luciferin-O-beta-galactopyranoside (Lu-Gal) was synthesized, purified and characterized. Synthesis of Lu-Gal resulted in purity better than 99.998%. Analytical data and spectra were appropriate. In terms of the kinetic data, Lu-Gal is a highly sensitive and specific substrate for beta-galactosidase. Using the given chemical conditions, nonlabelled zonae bound competitively to boar spermatozoa, which resulted in a high sensitivity and specificity. By the addition of 10 nonlabelled zonae, the binding of labelled zonae was almost completely inhibited. Corresponding results were obtained when the bioluminescent system was compared with the hemizona assay. On the other hand, spermatozoa of other species (bull, hamster and man) showed only low binding to the porcine zonae or none at all. Competitive displacement was not observed, indicating the inter-species specificity of the assay.

Identification of bovine zona pellucida glycoproteins

Despite the economical importance of in vitro gamete technologies in cattle, only little is known about the molecular mechanisms of binding of spermatozoa to the zona pellucida (ZP) of the oocyte. The aim of the present work was to identify proteins from the bovine zona pellucida (bZP) and to investigate which bZP proteins play a role in sperm-egg binding. High resolution 2-dimensional polyacrylamide gel electrophoresis of bZP proteins under reducing conditions showed that the bovine ZP could be separated into 4 glycoprotein spots, provisionally named bZP1, bZP2, bZP3, and bZP4, with different molecular masses and isoelectrical points. The N-terminal amino acid sequence of bZP1, bZP2, and bZP4 could be determined. The N-terminal amino acid sequences of bZP1 and bZP4 were identical and were homologous to that of pZP4. Comparison of our data to that of Noguchi et al., 1994 (Biochim Biophys Acta 1201:7-14) revealed that bZP2 and bZP4 are fragments of bZP1. Immunoblot analysis showed that, respectively, anti-porcine-ZP3alpha and -ZP3beta antibodies recognized 2 distinct regions of the bZP3 spot. Both antibodies inhibited sperm-egg binding in the bovine. We conclude that the bovine ZP consists of 3 proteins that correspond by size, N-terminal amino acid sequence, and antigenic determinants of pZP1, pZP3alpha, and pZP3beta, respectively, that are encoded by the porcine ZPA, ZPB, and ZPC genes (Harris et al., 1994: J Seq Map 4:6331-393), respectively.

Involvement of N-linked carbohydrate chains of pig zona pellucida in sperm-egg binding

The sperm receptor activity of pig zona pellucida has been previously shown to exist in one of the components, pig zona protein 3 alpha (PZP3 alpha), that can be purified after the removal of sialylated and/or sulfated N-acetylpoly(lactosamine) by digestion with endo-beta-galactosidase. In this study, we examined whether N-linked or O-linked carbohydrate chains are involved in the sperm receptor activity of pig zona pellucida. The elimination of N-linked carbohydrate chains from endo-beta-galactosidase-digested PZP3 alpha by digestion with N-glycanase markedly reduced its inhibitory effect on sperm-egg binding in an in vitro competition assay, whereas the elimination of O-linked carbohydrate chains by alkali treatment hardly reduced the inhibitory effect. These results indicate that N-linked carbohydrate chains of PZP3 alpha play a major role in mediating the sperm binding of zona pellucida in pig.

Identification and characterization of a 27 kDa acrosome protein of human sperm defined by a monoclonal antibody with fertilization-blocking effect

A monoclonal antibody, MAb 1G1, possessing a strong fertilization-blocking activity was prepared by immunizing a BALB/c mouse with capacitated human sperm in order to study the molecular nature of sperm antigens relevant to fertilization. MAb 1G1 inhibited human sperm penetration into zona-free hamster eggs. It reacted to the apical portion of acrosome-reacted human sperm, but did not react to live sperm before the acrosome reaction as demonstrated by immunofluorescence staining. In paraffin-embedded testis sections, the round spermatids, spermatocytes and spermatozoa were stained with MAb 1G1, but the spermatogonia were not stained. Neither Sertoli cells, Leydig cells nor other somatic tissues were stained. The sperm of Japanese monkey, bull, boar, hamster and mouse were not stained. Therefore, the staining of sperm was species specific. The antigen corresponding to MAb 1G1 showed a band at 27 kDa by immunoblotting. The reactivity of the antigenic component was not destroyed by periodic acid treatment. From the results obtained, it was postulated that the antigenic molecule might be a polypeptide. These results indicated that this MAb might be a useful tool for studying the mechanism of human sperm-egg fertilization and the development of a contraceptive vaccine.

Antifertility effect of active immunization with ZP4 glycoprotein family of porcine zona pellucida in hamsters

Female golden hamsters were immunized with solubilized porcine zona pellucida (s-PZP) or ZP4 glycoprotein family isolated from s-PZP by preparative SDS-PAGE. Both antigen preparations induced production of antibodies which reacted not only with porcine zona pellucida but also with the hamster zona pellucida. The hamsters immunized with solubilized porcine zona pellucida mainly produced antibodies reactive to ZP3, while the hamsters immunized with ZP4 mainly produced antibodies reactive to ZP4. The former animals became permanently infertile but the infertility in the latter animals was temporary and they became pregnant later. Histological studies revealed that the ovarian follicles in hamsters immunized with s-PZP were completely destroyed leaving only atrophic follicle-like cell clusters, while in the ovaries of hamsters immunized with ZP4 a number of small follicles with oocytes remained intact. These observations are encouraging for the further characterization of the ZP4 antigens as candidates for the development of a contraceptive vaccine.