146. MOLECULAR FILTRATION PROPERTIES OF THE EXPANDED CUMULUS MATRIX: CONTROLLED SUPPLY OF METABOLITES AND EXTRACELLULAR SIGNALS TO CUMULUS CELLS AND THE OOCYTE

Abstract

Cumulus matrix genes are positively correlated with oocyte competence [1]. Formation of the expanded cumulus matrix during oocyte maturation is well described; however its function remains elusive. We investigated whether cumulus matrix acts as a molecular filter, based on recognised filtration properties of analogous matrices. We found that cumulus matrix controls metabolite supply to the oocyte and retains prostaglandin E2 (PGE₂), which is critical in oocyte maturation. The uptake of fluorescently labelled hydrophilic and hydrophobic metabolites showed that cumulus matrix formation significantly impeded diffusion to the oocyte. Expanded in vivo matured cumulus oocyte complexes (COCs, eCG+hCG16h) resisted uptake of glucose and cholesterol compared to unexpanded (eCG44h, P < 0.05), as assessed by confocal microscopy and spatial quantitation of fluorescence (P < 0.05). In vitro maturation (IVM) results in pronounced compositional deficiency of cumulus matrix proteins [2] and poor oocyte quality. Glucose and cholesterol were transported more readily into cumulus cells and the oocyte of IVM COCs (matured in αMEM/5% FCS/50 mIU/mL FSH, 16 h) compared to in vivo matured COCs (P < 0.05 and P = 0.08, respectively). Taking the inverse approach we found that PGE₂ synthesised by cumulus cells is retained within the matrix compartment of in vivo matured COCs but IVM COCs did not retain PGE₂ and secreted 4.3-fold more into the media. The relationship of retained to secreted PGE₂ was significantly higher after in vivo maturation vs IVM COCs (P < 0.0001). This property of the COC matrix reveals a potential mechanism whereby the prostaglandin signal intensifies through a physicochemical mechanism rather than gene regulation. This is the first demonstration that cumulus matrix regulates diffusion toward and secretion from the COC, thus excluding glucose, known to negatively affect oocyte quality, and trapping factors, including PGE₂, with critical roles in oocyte maturation and fertilisation. Thus, IVM may reduce oocyte quality due to poor trafficking of metabolites and signalling molecules.

(1) McKenzie LJ, et al. Human cumulus granulosa cell gene expression: a predictor of fertilization and embryo selection in women undergoing IVF. Hum Reprod 2004; 19: 2869–2874.
(2) Dunning KR, et al. Altered composition of the cumulus-oocyte complex matrix during in vitro maturation of oocytes. Hum Reprod 2007; 22: 2842–2850.