THE IDENTIFICATION AND CHARACTERIZATION OF AN INNER ACROSOMAL MEMBRANE ASSOCIATED PROTEIN, IAM38, RESPONSIBLE FOR SECONDARY SPERM-ZONA BINDING DURING FERTILIZATION

Yu, YANG

27 November 2008

During mammalian fertilization, the exposure of the inner acrosomal membrane (IAM) after acrosomal exocytosis is essential for the secondary binding between sperm and zona pellucida (ZP) of the oocyte, a prerequisite for sperm penetration through the ZP. The identification of the sperm protein(s) responsible for secondary binding has posed a challenge for researchers. We were able to isolate a sperm head fraction in which the IAM was exposed. Attached to the IAM was an electon dense layer, which we termed the IAM extracellular coat (IAMC). The IAMC was also observable in acrosome reacted sperm. High salt extraction removed the IAMC including a prominent 38 kDa polypeptide, referred to as IAM38. Antibodies raised against IAM38 confirmed its presence in the IAMC of intact, sonicated, and acrosome-reacted sperm. Sequencing of IAM38 revealed it as the ortholog of porcine SP38, a protein that was found to bind specifically to ZP2 but whose intra-acrosomal location was not known. We showed that IAM38 occupied the leading edge of sperm contact with the zona pellucida during fertilization, and that secondary binding and fertilization were inhibited in vitro by antibodies directed against IAM38. As for the mechanism of secondary sperm-zona binding by IAM38, we provided evidence that the synthetic peptide derived from the ZP2-binding motif of IAM38 had a competitive inhibitory effect on both sperm-zona binding and fertilization while its mutant form was ineffective. In summary, our study provides a novel approach to obtain direct information on the peripheral and integral protein composition of the IAM and consolidates IAM38 as a genuine secondary sperm-zona binding protein. In addition, our investigation also provides an ultrastructural description of the origin, expression and assembly of IAM38 during spermatogenesis. It shows that IAM38 is originally secreted by the Golgi apparatus as part of the dense contents of the proacrosomic granules but later, during acrosome capping phase of spermiogenesis, is redistributed to the inner periphery of the acrosomal membrane. This relocation occurs at the time of acrosomal compaction, an obligatory structural change that fails to occur in Zpbp1-/- knockout mice, which do not express IAM38 and are infertile. / Thesis (Ph.D, Anatomy & Cell Biology) -- Queen's University, 2008-11-27 15:33:50.226

spermiogenesis

sperm

acrosome

acrosomal biogenesis

inner acrosomal membrane (IAM)

inner acrosomal membrane coat (IAMC)

IAM38

zona pellucida

sperm-zona secondary binding

zona penetration

fertilization

A vitrificação de oócitos bovinos prejudica sua capacidade reprodutiva, independente do estadio de maturação / Vitrification of bovine oocytes impairs their reproductive capacity independently of maturation stage

Daiane Lopes Bulgarelli

14 December 2011

Até o momento a literatura não determinou qual o melhor estadio de maturação (imaturo ou maduro) para que o oocito mantenha sua competência para o desenvolvimento reprodutivo após a criopreservação. O objetivo deste estudo foi determinar em qual estadio meiótico (imaturo -VG (vesícula germinativa) ou maduro- MII (metáfase II)) o oócito é menos susceptível ao dano na criopreservação, utilizando modelo experimental bovino. Foram utilizados ovários de vacas abatidas em matadouro, após a aspiração dos folículos, os oócitos imaturos (VG) foram selecionados para a maturação in vitro e vitrificação, e foram divididos em três grupos: 1) oócitos maturados in vitro e não submetidos à vitrificação (CONTROLE); 2) oócitos vitrificados imaturos (VG), descongelados e submetidos à maturação in vitro (CRIO-MIV); 3) oócitos maturados in vitro (MII), vitrificados e descongelados (MIV-CRIO). Os oócitos foram avaliados quanto a: a)maturação nuclear pela técnica de orceína acética; b) integridade da zona pelúcida (ZP) através de microscopia de polarização; c) viabilidade oocitária pela técnica de DEAD-LIVE; d) desenvolvimento embrionário (taxa de clivagem, produção e eclosão de blastocistos) através da fertilização in vitro (FIV) e ativação partenogenética (AT). Não houve diferença na capacidade de maturação nuclear entre os oócitos frescos e descongelados no grupo CRIO-MIV (p=0,23). Em relação à zona pelúcida a totalidade dos oócitos (100%) nos três grupos apresentou leitura de zona pelúcida positiva, não havendo correlação com evolução embrionária posterior. Na análise de viabilidade celular pelo DEAD-LIVE verificou-se que houve redução da viabilidade do grupo MIV-CRIO (27%) quando comparado com controle (84%) (p<0,0001). Na análise do potencial de desenvolvimento embrionário o grupo controle apresentou melhores taxas de clivagem após FIV (80%) e AT (58%), do que os grupos CRIO-MIV (28%; p<0,0001; 28%; p=0,0002, respectivamente) e MIV-CRIO (26%; p<0,0001; 22%, p<0,0001,respectivamente). As taxas de formação de blastocisto e eclosão após FIV nos grupos CRIO-MIV, MIV-CRIO e após AT no grupo MIV-CRIO foram nulas. Houve a produção e eclosão de apenas um blastocisto no grupo CRIO-MIV após AT. No modelo experimental utilizado, o procedimento de vitrificação comprometeu parcialmente a viabilidade dos oócitos medida pela técnica de DEAD- LIVE e completamente o desenvolvimento embrionário subseqüente, independente do estadio de maturação meiótica (VG ou MII) durante a criopreservação. No entanto, oócitos vitrificados em estadio de VG e submetidos à MIV foram meioticamente competentes e progrediram até o estadio de MII, sugerindo que o dano não compromete a capacidade de maturação nuclear do oócito. Este estudo não conseguiu determinar qual o melhor estadio meiótico oocitário para criopreservação, já que os dois estadios meióticos (VG e MII) se mostraram igualmente prejudicados pela criopreservação em relação à capacidade reprodutiva. / Until the present literature has not achieved a consensus regarding the best maturation stage for oocyte to maintain their reproductive capacity after cryopreservation. The aim of this study was to determine, using an experimental bovine model, in which stage of development (VG stage, immature, or MII stage, post-maturation in vitro) the oocyte is less susceptible to damage during cryopreservation. Immature oocytes (VG) from the ovaries of slaughtered cows were selected for in vitro maturation or vitrification and divided into three groups. The first group (CONTROL) consisted of immature oocytes, matured in vitro without vitrification; the second group (CRYO-IVM) consisted of vitrified immature oocytes thawed and submitted to in vitro maturation; and the third group (IVM-CRYO) consisted of matured in vitro oocytes submitted to vitrification and thawing. The oocytes were evaluated for: nuclear maturation by acetic orcein staining; integrity of the zona pellucida using a polarized microscope; cell viability by the Dead-Live technique; and embryo development (cleavage, production and hatching rate) by in vitro fertilization and parthenogenetic activation. There was no difference in capacity of nuclear maturation between fresh and thawed oocytes (p=0.23). Regarding the zona pellucida (ZP), all oocytes (100%) of all three groups (control, CRYO-IVM and IVMCRYO) presented a positive ZP reading, with no correlation with later embryo evolution. DEAD-LIVE analysis of cell viability revealed reduction of viability in the IVM-CRYO group (27%) compared to control (84%) (p<0.0001) and to the CRYO-IVM group (56%) (p=0.017), with no difference between the last two groups (p=0.055). Analysis of the potential for embryo development by means of in vitro fertilization showed that the control group presented better cleavage and blastocyst formation rates than the CRYO-IVM (p<0.0001 and p<0.0001, respectively) and the IVM-CRYO (p<0.0001 and p=0.0004, respectively) groups. Analyzing the potential for embryo development the control group presented better cleavage by means of in vitro fertilization (80%) and parthenogenetic activation (58%) than the CRYOIVM (28%; p<0,0001; 28%; p=0,0002, respectively) and the IVM-CRYO groups (26%; p<0,0001; 22%, p<0,0001,respectively) Analysis of blastocyst formation rates and hatching after FIV and AT in CRYO-IVM and IVM-CRYO groups were null. Vitrification of bovine oocytes causes great impairment of their reproductive capacity regardless of the stage of maturation at the time of freezing. However the vitrified immature oocytes submitted to IVM maintained their capacity of nuclear maturation, as they achieved MII stage. This study was not able to determine which stage was better in reducing crio damage, as both stages (VG and MII) presented equally impaired by the process.

Desenvolvimento embrionário

Maturação in vitro

Maturação nuclear

Oócito bovino

Viabilidade

Vitrificação

Zona pelúcida

Bovine oocyte

Embryonic development

In vitro maturation

Nuclear maturation

Viability

Vitrification

Zona pellucida

Roles of Seminolipid and Its Associated Membrane Domain in Male Fertility

Kongmanas, Kessiri

January 2015

Our research aims at understanding the roles of seminolipid (sulfogalactosylglycerolipid or SGG) and its associated membrane domains in male reproduction. SGG is a sulfoglycolipid present selectively and abundantly in mammalian male germ cells. Therefore, information on its properties would be relevant towards the development of male fertility biomarkers and spermicide-based contraceptives. We have shown that SGG has direct affinity for zona pellucida (ZP, egg extracellular matrix) and plays a role in the formation of sperm lipid rafts, the ZP-binding platforms on the sperm anterior head plasma membrane (APM), the initial ZP binding site. For a better understanding of mechanisms underlying sperm-ZP interaction, I performed proteomic characterization of APM vesicles (SGG-associated membrane domains with ZP affinity) isolated from sperm before and after capacitation, a process through which sperm gain maximal ZP affinity. Proteomic results revealed that capacitated APM vesicles contained high-molecular-weight protein complexes, with higher ZP affinity and levels of ZP-binding proteins as compared with those of the non-capacitated samples. ZP-binding proteins known to exist in the acrosome (i.e., zonadhesin, proacrosin/acrosin) were found in these APM protein complexes. Immunofluorescence suggested that a fraction of these proteins trafficked from the acrosome to APM during capacitation. These findings provided a new mechanism on how sperm gain full ZP-binding ability during capacitation. Since SGG is a major component of APM, proper SGG levels at this site would be important for male fertility. Levels of sperm SGG are regulated through the synthesis and degradation. In fact, lack of SGG-synthesis enzymes causes a spermatogenesis disruption, resulting in male infertility. However, significance of SGG degradation remains unknown. SGG can be desulfated in vitro by arylsulfatase A (ARSA), an enzyme existing in the acrosomes of sperm/spermatids and lysosomes of Sertoli cells, testicular somatic cells that nurture developing germ cells. Sertoli cells also phagocytose ~50% of germ cells that become apoptotic during spermatogenesis. To understand physiological importance of SGG degradation, the fertility status and SGG levels of Arsa-/- male mice were determined. We found that Arsa-/- males became subfertile when they were older than 5 months, and when they were 8-month-old (~40-year-old men) they produced sperm at 50% wild type rate. Arsa-/- sperm had minimal in vitro fertilizing ability and a number of them showed abnormal morphology. Quantitative mass spectrometry revealed that SGG levels in Sertoli cells of 8-month-old Arsa-/- mice were increased to ~250% of the wild type level; this SGG accumulation may lead to a decrease in Sertoli cell ability to support spermatogenesis. However, SGG levels in sperm of 8-month-old Arsa-/- mice were ~50% of the wild type value, a result that partly explained the decreased fertilizing ability of these sperm. The reduced SGG level of Arsa-/- sperm was likely due to a lack of SGG’s building-block lipid (palmitylpalmitoylglycerol) putatively generated in Arsa-/- Sertoli cells and recycled to the next generation of primary spermatocytes for SGG synthesis. Hence, levels of sperm SGG are a promising bioindex for male fertility. Since Sertoli cells also regulate SGG homeostasis, their functionality should be now included in male fertility/subfertility diagnosis.

Seminolipid

Zona pellucida

Sperm anterior head plasma membrane

Acrosomal proteins

Capacitation

Arylsulfatase A

Sertoli cells

Male fertility

Lysosomal storage disorder

Mass spectrometry

Effect of thermal regime on the expression of key reproductive genes during hormonally-induced vitellogenesis in female European eels

Mazzeo, Ilaria

19 December 2015

European eel (Anguilla anguilla, L., 1758) is suffering a strong population decrease and at the same time it is a very appreciated species and by now it has not been possible closing its cycle life. In fact, this species does not mature in captivity unless hormonally induced. So all the production is up to the natural population. All these factors together make urgent achieving the closing of the productive cycle and for this aim it is important to understand the reproductive physiology and the reasons of this development blockage. The present thesis wants to be a new contribution to the knowledge of reproductive physiology in female European eel submitted at hormonal treatment. To achieve this goal, expression of genes not previously studied in this species (cyp19a1, ara, arb, gnrhr1a, gnrhr1b, gnrhr2, zpb and zpc) was analyzed in eels reared under a constant thermal regime, accordingly to the usual rearing conditions. Also, the effect of rearing temperature on gene expression and steroid profile (T, 11-KT and E2) was studied. In fact, eels migrate to Sargasso Sea to reproduce and during the travel experiment temperature changes, while traditionally they are reared at a constant high temperature which could affect vitellogenesis progression and final oocyte quality. For the study it was necessary cloning and characterizing some genes which have not still been sequenced in European eel. Gene expression was studied by qPCR after designing primer and optimizing the qPCR race. Steroid profiles were analyzed by immunoassays and the gonadal development stages were established by histology. The first result obtained at the end of the study were six new genes characterized in European eel. The analysis of gene expression allowed to understand the involvement of specific genes during vitellogenesis (arb, gnrhr1b and gnrhr2) in different brain regions. The temperature was conformed as a crucial environmental factor affecting vitellogenesis. On one hand, eels matured at lower starting temperatures showed better reproductive parameters which could have an influence in the final oocyte quality. On the other hand higher temperatures are necessary to achieve further vitellogenetic stages / Mazzeo, I. (2014). Effect of thermal regime on the expression of key reproductive genes during hormonally-induced vitellogenesis in female European eels [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48490 / TESIS

European eel

Reproductive physiology: GnRH receptors

Androgen receptors

Aromatase

Zona Pellucida

Gene characterization

QPCR

Steroids

Vitellogenesis

Temperature effect.

BIOLOGIA ANIMAL

PRODUCCION ANIMAL