Abstract. Follistatin (FST) Follistatin (FST), which was first isolated from porcine and bovine follicular fluid (1, 2), was initially described as a protein involved in the regulation of the secretion of folliclestimulating hormone. This monomeric glycosylated polypeptide chain is encoded by a single gene located on the long arm chromosome 5q11.2 (3), which through alternative splicing may be transcribed into the mRNA precursors, FST317 and FST344. From these precursors, three major FST isoforms may be produced, namely FST288 (from pre-FST317), FST315 (from pre-FST344) and a third FST isoform, FST303, produced from the post-translational truncation of the FST315 C-terminus. These three main FST isoforms can also be glycosylated to yield six further FST isoforms that were previously identified in bovine (4) and porcine (5, 6) follicular fluid. At the core, all FST isoforms contain a 63 residue N-terminal domain and three follistatin domains, termed FSD1, FSD2 and FSD3. These domains comprise 73-77 amino acid residues and are characterised by an arrangement of 10 conserved cysteine residues (7). Both FST288 and FST315 are differentially expressed in human tissues (6-9). FST315 is the predominant isoform, whilst the FST288 isoform accounts for less than 5% of the encoded mRNA (10, 11). Some molecules such as activin, transforming growth factor-beta (TGFβ), forkhead domain transcription factor L2 (12, 13), gonadotropin-releasing hormone (14), zinc finger protein (GLI2) (15), dexamethasone (16), androgens (17), activators of winglessrelated integration site (WNT) signalling (18, 19) and 1,25-dihydroxyvitamin D (20) have been shown to regulate the transcription of the FST gene. In addition, down-regulation of FST gene expression by peroxisome proliferator-activated receptor gamma (PPARγ) or the transcription factor epiprofin (21, 22) has been shown.As an antagonist of TGFβ superfamily member activin, FST seems to primarily function in relation to the role that activin plays. Along with FST, activin acts as a pleiotropic growth factor system, which is involved in proliferation, differentiation, and apoptosis of a number of cell types (23-28). As such, the functions of the FST isoforms are therefore linked to their binding affinity for activin (6,10,11,(29)(30)(31)(32)(33)(34)(35)(36)(37). In fact, this critical binding and neutralisation of activin, either partial or complete, is based on the order of at least two of the FST cysteine domains and its Nterminal (38), conferring a difference in affinities for activin between the FST isoforms. The binding complex between activin and FST generally occurs in a 1:2 ratio, where the two FST molecules, connected C-terminus to N-425
