Cloning of cDNAs encoding the three pituitary glycoprotein hormone beta subunit precursor molecules in the Japanese toad, Bufo japonicus.

Complementary DNAs encoding precursor molecules of the beta subunits of three pituitary glycoprotein hormones (LH, FSH, and TSH) of the Japanese toad (Bufo japonicus) were isolated and sequenced. Unexpectedly large numbers of single nucleotide substitutions were found in all three beta subunit cDNAs. The eight isolated LH beta precursor cDNA clones were classified into six forms of nucleotide sequence, with four nucleotide substitutions each in the apoprotein coding region and in the 3' untranslated region (UTR). In the deduced amino acid sequence, the LH beta subunit showed two forms with a single amino acid substitution. The seven isolated FSH beta subunit cDNAs were classified into two forms, which differed from each other at 11 positions in the 3' UTR. The six isolated TSH beta subunit clones were classified into four forms with 2 and 5 nucleotide substitutions in the signal peptide and apoprotein coding regions, respectively. However, all the substitutions in the apoprotein coding region were silent. The substitution in the signal peptide coding region could produce three forms of signal peptide. Amino acid sequence comparison revealed that the toad LH beta subunit is more similar to the fish GTH II beta subunit than to mammalian and avian LH beta subunits. We found that the toad LH beta subunit molecule is a partial chimera of LH and FSH; amino acid residues located in 36th to 42nd and 96th to 99th are identical or similar to those of not LH- but FSH-beta subunit in mammalian, whereas it is more similar to LH- than FSH-beta subunit in total. We also found that the toad FSH beta subunit is more similar to the fish GTH II beta subunit than to the fish GTH I beta subunit and that the toad TSH beta subunit is more similar to tetrapod TSH beta subunits than to fish TSH beta subunits.

Differentiation of Secondary Spermatogonia to Primary Spermatocytes by Mammalian Follicle-Stimulating Hormone in Organ Culture of Testes Fragments from the Newt, Cynops pyrrhogaster.

In order to elucidate essential factors responsible for the initiation and promotion of spermatogenesis, we developed an organ culture system with a chemically defined medium. When newt testes fragments, consisting of somatic cells and germ cells almost exclusively secondary spermatogonia, were cultured in control medium for three weeks, most of the testicular cysts still contained only secondary spermatogonia. On the other hand, in the medium supplemented with various kinds of hormones and vitamins primary spermatocytes (zygotene-pachytene) appeared in about 60% of the cysts by the second week. Selective removal of specific hormones and vitamins revealed that follicle-stimulating hormone (FSH) alone was indispensable and sufficient for the differentiation of secondary spermatogonia to primary spermatocytes. Neither the addition of luteinizing hormone (LH) nor androgens (testosterone and 5α-dihydrotestosterone) to the control medium stimulated differentiation. Consistent with these findings was the fact that radioreceptor assays revealed high affinity specific binding sites for FSH but none for LH. Since our ultrastructural studies revealed a major loss of contact between spermatogonia and Sertoli cells following exposure to FSH, we suggest that FSH triggers differentiation of spermatogonia by acting on Sertoli cells which in turn act on spermatogonia.