Expression of α 6 integrin subunit in bovine oocyte and its potential role during fertilization

Fertilization in mammals requires the successful completion of a sequence of steps, starting with the transport of gametes in the reproductive tract and ending with sperm-egg membrane fusion to produce a zygote. Although some integrin subunits are known to be associated with the plasma membrane of some mammalian oocytes and spermatozoa, the presence of α6 integrin on bovine oocytes with intact zona pellucida has not been reported. The present study was undertaken to evaluate the expression of α6 integrin subunit in bovine oocyte and to determine if in vitro binding to the zona pellucida and fertilization were affected by treating oocytes with α6 integrin subunit antibody. The α6 integrin subunit was identified on the bovine oocyte by immunocytochemistry. In vitro fertilization was significantly decreased when in vitro matured bovine oocytes were pre-incubated with α6 integrin subunit antibody at concentration 5 and 20 μg/mL, and spermoocyte binding increased. These studies demonstrated the presence of α6 integrin subunit on bovine oocyte, and its importance in fertilization and polyspermy.


INTRODUCTION
Fertilization process is a highly complex and orchestrated event in the series of cellular mechanisms that pass the genome from one generation to the next and initiate development of a new organism.In mammals, fertilization is initiated by the direct interaction of sperm and egg membranes, a process mediated by gametes surface proteins [1].
Understanding the role in fertilization of gamete specific surface proteins and other surface proteins expressed, which both contribute to sperm-egg interactions is, at present, a pivotal area of research.Among the best characterized biomarkers for assessment of sperm-egg interactions are the integrins.Integrins are a family of heterodimeric cell adhesion molecules that mediate cell-cell and cell-extracellular matrix interactions.Up to now, 18 α subunits (120 -180 kDa) and 8β subunits (90 -110 kDa) were identified; these combine to make 24 different integrins [2,3].Many integrins were able to recognize the tripeptide sequence arginine-glycine-aspartic acid (RGD).Integrins further attach to the cell, specifically to the extracellular matrix and participate in cell migration [1].
Although some integrin subunits are known to be associated with the plasma membrane of some mammalian oocytes and spermatozoa, the presence of α 6 integrin on OPEN ACCESS bovine oocytes with intact zona pellucida has not been reported.The present study was undertaken to evaluate the expression of α 6 integrin subunit in bovine oocyte and to determine if in vitro binding to the zona pellucida and fertilization were affected by treating oocytes with α 6 integrin subunit antibody.

Chemicals and Reagents
Unless otherwise stated, all chemicals were obtained from Sigma Chemical Co.(St.Louis, MO, USA).Tissue culture media 199 (TCM 199 Hepes and Bicarbonatebuffered), PBS, and fetal calf serum (FSC) were obtained from Gibco TM , Invitrogen Corporation (Grand Island, NY, USA).

Oocyte Collection and Maturation
Bovine ovaries were harvested at a local abattoir and transported to the laboratory in PBS at 25˚C -30˚C.Once in the laboratory, ovaries were rinsed with warmed PBS.Follicles from 2 to 6 mm in diameter were aspirated using an 18-gauge needle attached to 5 mL syringe.The ovarian follicular fluid was pooled in 15 mL conical tubes and allowed to settle to the bottom of the tube for 10 -15 min.Oocytes were selected based on the presence of at least one layer of intact cumulus cells for the sperm-oocyte binding experiments, and two or more intact cumulus cell layers for confocal microscopy and in vitro fertilization.

Localization of α 6 Integrin Subunit by Confocal Microscopy
Cumulus cells were removed mechanically by vortexing, 10 min, in 1 mL of maturation medium.All oocytes were fixed with 3.5% (w/v) paraformaldehyde in PBS for 1 h at room temperature (RT).They were washed 3 times, 5 min each, with PBS/PVP, and permeabilized with 0.2% (v/v) Triton X-100 in PBS for 1 h at RT. Subsequently, they were incubated with 10% (v/v) goat serum (Invitrogen) in polyvinyl pyrrolidone (PVP, 0.1% (w/v) in PBS) solution for 30 min at 37˚C, with mouse MAB to α 6 integrin subunit (Chemicon International ® , Temecula, CA, USA) for 1 h.The oocytes were washed 4 times, 10 min each, in PBS with PVP.After that they were incubated with Alexa Fluor 488 goat-anti-mouse secondary antibody (Invitrogen ® , Eugene, OR, USA) for 1 h at 37˚C.They were mounted in a droplet of ProLong ® Gold Antifade Reagent with DAPI (Invitrogen ® ) and evaluated for the presence of α 6 integrin subunit using an Olympus BX51 equipped with epifluorescence and a DP71 camera with a 12.5 MPixel CCD microscope.

Treatments
This study was conduct to determine whether in vitro sperm binding to the ZP of intact bovine oocytes and fertilization were affected by treating oocytes with α 6 integrin subunit antibody.In vitro matured oocytes were incubated (39˚C, 5% CO 2 , in air) for 2 h in fertilization medium with: 1) no antibody; 2) 5 µg/mL α 6 integrin subunit antibody; 3) 20 µg/mL α 6 integrin subunit antibody; 4) a rabbit IgG against a non-bovine antigen, bacterial histidase (1:2000) [21].Frozen-thawed bull semen from the same ejaculate was washed using Percoll gradient centrifugation.Briefly, 2 mL of a 90% Percoll solution in modified Tyrode's medium (MTM; v/v) were placed in the bottom of a 15 mL polypropylene tube and 2 mL of a 45% Percoll solution in MTM (v/v) were gently overlaid on top of it.The straw content was layered onto the 45% solution and centrifuge for 30 min at 700 × g.The pelleted spermatozoa was recovered, assessed for motility and suspended in fertilization medium.Oocytes were inseminated with 10 × 10 6 washed spermatozoa in the fertilization medium supplemented with 2 µg/mL heparin and 20 µg/mL of PHE solution (20 µM penicillamine, 10 µM hypotaurine, 1 µM adrenaline).Oocytes and spermatozoa were co-incubated for 18 h at 39˚C in 5% CO 2 in air (v/v).

Sperm-Oocyte Binding
After co-incubation oocytes were washed five times in TL-HEPES and placed, 10 per slide, under a coverslip mounted with paraffin wax and petroleum jelly at each corner.The coverslip was gently lowered over the oocytes until they burst, and the cytoplasm was rinsed away leaving the ZP behind.The ZP and spermatozoa attached to it were stained with Hoechst fluorescent dye 33,342 to determine the number of spermatozoa bound to each ZP using fluorescence microscope Olympus BX51 [1].

In Vitro Fertilization
In vitro matured oocytes were washed twice in HEPES medium, placed in fertilization medium with 2 µg/mL heparin and incubated as described above.After 18 h of co-incubation, oocytes were vortexed to remove cumulus cells and accessory spermatozoa, and washed twice in HEPES medium.The oocytes were placed 10 per slide under a coverslip mounted at the corners with paraffin wax and petroleum jelly.The coverslip was gently lowered over the oocytes and a adhered to the slide with rubber cement.Oocytes were fixed in acid alcohol for 24 h and stained with acetate-orcein [1] the presence of two pronuclei in the cytoplasm of the oocyte indicated normal fertilization.

Statistical Analysis
Each experiment was repeated four times and data from each experiment were polled.Approximately 40 -50 oocytes per treatment for sperm binding, and 80 -90 oocytes per treatment for fertilization were evaluated in each replicate.ANOVA using a general linear model was performed using mean number of spermatozoa bound per ZP for each treatment in the sperm-oocyte binding experiments, and a weighted mean based on the number of oocytes per treatment in the fertilization experiments.
Least square means comparisons were used to assess sperm binding and weighted least square means were used to analyze fertilization data.The significance level for these tests was p < 0.05.

Localization of α 6 Integrin Subunit by Confocal Microscopy
Expression of α 6 integrin subunit could clearly be detected on the zona pellucida of in vitro matured bovine oocytes (Figure 1).

DISCUSSION
The molecular events of sperm-oocyte binding and fusion have been studied extensively, but identification of the molecules involved in sperm-oocyte interaction and fertilization remains incomplete.Integrins are cell surface receptors that mediate cell-cell and cell-extracellular matrix interactions in many cell types.Many molecules have been characterized and suggested to participate in the fertilization process, having integrin as receptors such as CD46, members of the A Desintegrin and A Metalloprotease domains (ADAM) family, secreted prosphoprotein one (SSP1 or OPN) and molecules with RGD peptides sequence [1][2][3][4][5][6]9,11,[18][19][20][21][22].Inhibition of spermoocyte adhesion/fusion can be performed by monoclonal antibodies, RGD or desintegrin-like peptides and RNAimediated knockdown [16][17][18][19].
Evidence for sperm-oocyte interaction through integrins have been established by the presence of α 6 , α 4 , α 2 , α V , β 3 , and β 3 integrin subunits on the bovine oocyte plasma membrane and also supported by the ability of RGDcontaining peptides to induce intracellular calcium transients.Indeed, the parthenogenetic development and the decreased in vitro fertilization have both provided a pivotal role for integrins at oocyte surface, influencing spermoocyte interaction [1,29,31,32].This is the first study showing the α 6 integrin on the bovine oocytes with the zona pellucida intact by confocal microscopy.The binding of monoclonal antibody to α 6 integrin subunit to the ZP of bovine maturated oocyte indicates that α 6 integrin is part of the bovine oocyte.
The inhibition of sperm-oocyte plasma membrane binding and antibody recognizing of the α 6 integrin subunit implies involvement of the α 6 in sperm-oocyte interaction.This data also suggest that α 6 integrin subunit may be involved in preventing polyspermy in bovine oocytes.Mammalian oocytes have capability to block polyspermy both at the zona pellucida and at the plasma membrane.While zona polyspermy blocking has been well characterized, little is known regarding molecular events surrounding the plasma membrane capabilities in avoiding polyspermy [19,35].
Bovine sperm bound in higher numbers to oocytes treated with anti-α 6 integrin subunit than to oocytes incubated in control medium, nevertheless incidence of polyspermic fertilization also increased with antibody-treated oocyte.While it is possible that sperm bound in higher numbers to antibody-coated oocytes than control oocytes through IgG-ZP interactions, a decrease in fertilization rates coupled with an increase in polyspermic fertilizations suggests that α 6 integrin subunit on bovine oocyte may participate in the induction of polyspermy blocks in bovine oocytes and in fertilization.
Bovine sperm bound in higher numbers to oocytes treated with anti-α 6 integrin subunit than to oocytes incubated in control medium, nevertheless incidence of polyspermic fertilization also increased with antibodytreated oocyte.While it is possible that sperm bound in higher numbers to antibody-coated oocytes than control oocytes through IgG-ZP interactions, a decrease in fertilization rates coupled with an increase in polyspermic fertilizations suggests that α 6 integrin subunit on bovine oocyte may participate in the induction of polyspermy blocks in bovine oocytes and in fertilization.