Glycosylation related actions of glycodelin: gamete, cumulus cell, immune cell and clinical associations

doi:10.1093/humupd/dmm004

Human Reproduction Update Advance Access originally published online on February 28, 2007
Human Reproduction Update 2007 13(3):275-287; doi:10.1093/humupd/dmm004

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© The Author 2007. Published by Oxford University Press on behalf of the European Society of Human Reproduction and Embryology. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org

Glycosylation related actions of glycodelin: gamete, cumulus cell, immune cell and clinical associations

M. Seppälä¹^,4, H. Koistinen¹, R. Koistinen¹^,2, P.C.N. Chiu³ and W.S.B. Yeung³

¹ Department of Clinical Chemistry, University of Helsinki, Helsinki University Central Hospital, Biomedicum Helsinki, 4th floor, Haartmaninkatu 8, 00290 Helsinki, Finland ² Department of obstetrics and Gynaecology, University of Helsinki, Helsinki University Central Hospital, Biomedicum Helsinki, 4th floor, Haartmaninkatu 8, 00290 Helsinki, Finland ³ Department of Obstetrics and Gynaecology, University of Hong Kong, Queen Mary Hospital, Pokulfam Road, Hong Kong, People's Republic of China

⁴ Correspondence address. Pihlajatie 20 B 15, 00270 Helsinki, Finland. E-mail: mseppala{at}welho.com

Glycodelin is an example of a glycoprotein whose complex-typeglycans mediate biological actions in human reproduction andimmune reactions. Being attached to an identical protein backbone,glycodelin oligosaccharides vary significantly from one reproductivetissue to another and have an effect on its own secretion androle in cell communication. For instance, uterine glycodelin-Ainhibits sperm–oocyte interaction by binding on the spermhead. This is a glycosylation-dependent phenomenon, in whichfucosyltransferase-5 plays a key role. Glycodelin-S from seminalplasma binds evenly around the sperm head and maintains an uncapacitatedstate in the spermatozoa, until the isoform is detached duringsperm passage through the cervix. Glycodelin-F from follicularfluid and Fallopian tube binds to the acrosomal region of thesperm head, thereby inhibiting both the sperm–oocyte bindingand premature progesterone-induced acrosome reaction. The cumuluscells surrounding the oocyte can capture glycodelin-A and -Ffrom the surrounding environment and convert these isoformsto a cumulus cell isoform, glycodelin-C. It differs by glycosylationfrom the other isoforms, and it too attaches on the sperm head,with the highest density in the equatorial region. Glycodelin-Cis capable of detaching the sperm-bound inhibitory isoformsso that the sperm–oocyte binding is enhanced. Glycodelin-Aalso has immunosuppressive actions directed to cellular, humoraland innate immunity. Although these actions depend mainly onthe protein backbone, glycosylation also plays a part. Glycosylatedglycodelin may be involved in the protection of spermatozoaagainst maternal immune reactions, and glycodelin also has apoptogenicactivity. Some glycosylation patterns of glycodelin may maskits apoptogenic domain. This review updates the recent researchand clinical associations of glycodelin, highlighting the roleof glycosylation.

Key words: cumulus cells / fertilization / immunosuppression

Abbreviations: Asn, asparagineGly, glycineGlu, glutamic acidLeu, leucineLys, lysinePhe, phenylalaninePro, prolineThr, threonineVal, valine.

Received on July 11, 2006; revised October 22, 2006; revised December 21, 2006; accepted on January 8, 2007

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