A 60–66 kDa protein with gonadotrophin surge attenuating factor bioactivity is produced by human ovarian granulosa cells

We aimed to confirm the ovarian site of gonadotrophin surge-attenuating factor (GnSAF) production and produce granulosa/luteal cell-conditioned medium (G/LCM) containing GnSAF for purification studies. Blue dye affinity chromatography followed by pseudochromatofocusing of G/LCM yielded bioactive fra...

Full description

Saved in:
Bibliographic Details
Published in:Molecular human reproduction 2002-09, Vol.8 (9), p.823-832
Main Authors: Fowler, Paul A., Sorsa-Leslie, Tarja, Cash, Phillip, Dunbar, Bryan, Melvin, William, Wilson, Yvonne, Mason, Helen D., Harris, William
Format: Article
Language:English
Subjects:
Biological and medical sciences
Biological Factors - isolation & purification
Biological Factors - metabolism
Cells, Cultured
Electrophoresis, Gel, Two-Dimensional
Female
FSH
Fundamental and applied biological sciences. Psychology
GnRH
Gonadotropins - metabolism
granulosa cells
Granulosa Cells - metabolism
Humans
Immune Sera
Isoelectric Focusing
Isoelectric Point
Mammalian female genital system
Molecular Weight
Morphology. Physiology
Ovary - metabolism
pituitary
Proteins - chemistry
Proteins - immunology
Proteins - metabolism
Sequence Analysis, Protein
Vertebrates: reproduction
Citations: Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We aimed to confirm the ovarian site of gonadotrophin surge-attenuating factor (GnSAF) production and produce granulosa/luteal cell-conditioned medium (G/LCM) containing GnSAF for purification studies. Blue dye affinity chromatography followed by pseudochromatofocusing of G/LCM yielded bioactive fractions at pH 5.74 and 5.77. The former had a major 60–66 kDa band with an internal amino acid sequence of EPQVYVHAP following tryptic digestion. A rat polyclonal antiserum (rPAb) raised against this band completely blocked in-vitro GnSAF bioactivity in human follicular fluid, serum and G/LCM. GnSAF bioactivity was localized to a 64 kDa band of serum-free G/LCM and following 2D gel electrophoresis, one of the spots recognized by Western blotting with the GnSAF rPAb had an N-terminal amino acid sequence of NH-XVPQGNAXXN. Neither amino acid sequence had significant homology with proteins in the human genome database. When ovarian tissues from spontaneously cycling women were cultured under serum-free conditions, neither theca- nor stroma-conditioned media contained GnSAF bioactivity. However, granulosa cell-conditioned medium significantly reduced GnRH-induced LH secretion, an effect that was reversed by incubation with the GnSAF rPAb. In conclusion, we have confirmed that human granulosa cells produce GnSAF within the ovary and have two candidate amino acid sequences for GnSAF. We have also demonstrated that serum-free granulosa cell culture constitutes the method of choice for the characterization of GnSAF since recovery of bioactivity is superior in the presence of fewer serum proteins.
ISSN:1360-9947
1460-2407
1460-2407
DOI:10.1093/molehr/8.9.823