Investigation of Some Amino Acid Analogues and Metabolites as Inhibitors of Wool and Hair Growth

Abstract

Sheep were given intravenous infusions of ethionine together with cycloleucine or reduced glutathione, in attempts to prevent the inhibition of wool growth by ethionine. Other sheep were given cycloleucine alone to measure effects on wool growth. Twenty-two compounds related to cystine, methionine, ethionine, lysine, phenylalanine and tyrosine were given as intravenous infusions to sheep to investigate their potential as depilatory agents. Nineteen of these compounds were also tested in mice during their first cycle of hair growth. The concurrent administration of cycloleucine with ethionine prevented the weakening of wool fibres caused by ethionine, but reduced glutathione was ineffective. Cycloleucine weakened wool fibres, as judged subjectively, and caused a small reduction in fibre diameter. Selenocystine and selenomethionine caused some hair loss in mice but selenocystine was also toxic. Both seleno-amino acids were toxic for sheep; selenocystine was lethal at 0�025 mmol kg- o.75 and selenomethionine at 0�09 mmol kg- O. 75 ? Doses that permitted survival of sheep did not have depilatory effects. However, the presence of autophagic vacuoles in the cytoplasm of follicle bulb cells of sheep indicated that a toxic dose of selenocystine had potential depilatory activity. Other compounds investigated did not induce loss of wool or hair. Some compounds, notably 3-methylthiopropionic acid and S-(2-aminoethyl)-L-cysteine, were toxic to mice but not sheep. The methionine analogue, methoxinine (O-methyl-DL-homoserine), caused a substantial reduction in the strength of wool fibres and a prolonged alteration of the crimp pattern. It is suggested tentatively that cycloleucine inhibits methionine adenosyltransferase and thereby reduces or prevents the formation of S-adenosylethionine. The failure of various compounds related to methionine and ethionine to have any depilatory activity in sheep supports the view that ethionine influences wool growth via the formation of S-adenosylethionine.