Analysis Of Human Follicular Fluid Research Articles

Spectrophotometric analysis of human follicular fluid with regard to in vitro fertilization (IVF) parameters, follicular protein, and hormone content

Our purpose was to investigate possible relationships with spectrophotometric absorbance (458-nm region) and biochemical variables in follicular fluid (FF) as well as in vitro fertilization (IVF) outcome. This study included 227 normal ovulatory women undergoing oocyte retrieval for IVF. Blood-uncontaminated fluid samples, identified by spectrophotometry, were investigated. Spectrophotometric absorbance of FF at 458 nm (n = 426), as well as hLH, FSH, PRL, hCG, testosterone, sialic acid, alpha 1-antitrypsin and plasminogen of selected fluids, was analyzed. Small-volume follicles (< or = 2 ml) were associated with higher absorbance profiles (P < 0.05), when compared to volumes greater than 2 ml. Our data suggest that the presence or absence of an oocyte, the potential of an oocyte to fertilize or cleave, failed to show any relationship with maximum FF absorbance at 458 nm. Maximum absorbances were significantly lower in FF from patients who subsequently became clinically pregnant (P = 0.039). No correlation between FF absorbances and biochemical parameters (P > 0.15) were established. Absorbance of clear FF at 458 nm should not be viewed as the single parameter to predict oocyte development in vitro.

Activin-binding proteins in human serum and follicular fluid.

Binding proteins that transport and/or modify the biological action of peptide hormones and growth factors have been identified for an increasing number of endocrinologically important substances. Since these binding proteins can mask epitopes critical for recognition in immunoassays and can neutralize the bioactivity of their targets, elucidation of hormonal physiology can be intricately tied to analysis of binding protein structure and function. Therefore, we investigated whether circulating activin- and inhibin-binding proteins exist in human serum by incubating purified recombinant human 125I-activin with serum samples. After gel permeation chromatography, radioactive activin was identified in three peaks, a high molecular wt (mol wt) binding protein peak (230 kDa), a lower mol wt binding protein peak (60 kDa), and free activin (22.5 kDa). Bound activin was displaced from the lower mol wt binding protein with either activin or inhibin, but was not displaced from the high mol wt peak with a 10-fold greater concentration of activin. Since an activin-binding protein, follistatin, has been identified in ovarian and pituitary extracts, these same analytical techniques were applied to analysis of human follicular fluid as well. A large, 60 kDa binding protein peak eluting in a position similar to the lower mol wt peak in serum was observed, consistent with this protein being follistatin. These results demonstrate the presence of at least two activin-binding proteins, distinguishable by size, in human serum that may interfere with attempts to assay activin levels in circulation without prior extraction, and may also be involved in regulating the biological actions of activin.

“Cocktail Party” effect reproduced electronically

Human follicular fluid is a complex body fluid that constitutes the microenvironment of developing follicles in the ovary. Follicular fluid contains a number of proteins that modulate oocyte maturation and ovulation. Information about the protein constituents of follicular fluid may provide a better understanding of ovarian physiology in addition to opening new avenues for investigating ovarian disorders. However, the composition of follicular fluid proteome remains poorly defined. In this study, we carried out SDS-PAGE, OFFGEL and SCX-based separation followed by LC–MS/MS analysis to characterize the proteome of human follicular fluid. We report high confidence identification of 480 proteins, of which 320 have not been described previously in the follicular fluid. The identified proteins belong to diverse functional categories including growth factor and hormones, receptor signaling, enzyme catalysis, defense/immunity and complement activity. Our dataset should serve as a resource for future studies aimed at developing biomarkers for monitoring oocyte and embryo quality, pregnancy outcomes and ovarian disorders.Proteome analysis of human follicular fluid by multi-pronged approach of protein peptide fractionation revealed 480 proteins with high confidence. The identified protein may facilitate the understanding of folliculogenesis. This protein dataset should serve as a useful resource for development of biomarkers for oocyte quality, in vitro fertilization techniques and female infertility.