The primary structure of two polypeptide chains from preparations of homeostatic thymus hormone (HTH alpha and HTH beta) entire-chain identities to two histones.

The primary structures of the 2 polypeptide chains (HTH alpha and HTH beta) of the homeostatic thymus hormone (HTH) were determined. The entire structures were found to be identical to those of histones H2A and H2B, respectively, without evidence for sub-types, proteolytic processings, or other peptide fragments. The results show that suggestions for new extranuclear and hormone-like histone functions apply to HTH preparations with intact protein chains of the H2 histones.

Differential effect of homeostatic thymus hormone on plasma thyrotropin and growth hormone in young and old rats.

There is increasing evidence that the neuroendocrine system is responsive to hormonal signals generated by the immune system. Thus, interleukin-1, hepatocyte stimulating factor and thymosin have been shown to stimulate adrenocorticotropin, beta-endorphin and luteinizing hormone secretion. We report here that homeostatic thymus hormone (HTH), a well-characterized thymic preparation, reduces plasma thyrotropin (TSH) and growth hormone (GH) in young (3 months) Sprague-Dawley male rats, but fails to do so (TSH) or has a significantly weaker effect (GH) in old (26 months) animals. Young and old conscious, free-moving rats carrying an indwelling atrial cannula received the substances to be tested via the cannulas. Plasma samples were taken every 30 min for 5 h and hormones were measured by RIA. In the young rats, HTH (8 mg/kg body wt) induced a marked reduction in plasma TSH which was significantly greater than the normal circadian decline observed in saline-injected young controls. The old rats displayed high basal levels of TSH which showed no circadian rhythmicity and did not respond to HTH. Plasma thyroxine (T4) showed a significant age-related reduction but was not affected by HTH. The above dose of HTH significantly reduced plasma GH in young and old rats, but the effect was greater in the young animals. Mean basal levels of plasma GH were significantly lower in old than in young rats. The present results suggest that HTH, whose production by the thymus is known to be stimulated by TSH and GH, is involved in an inhibitory feedback loop regulating plasma TSH and GH in young rats. Our data also suggest an age-related desensitization of the TSH and GH systems to thymic influence in this species.

Preparations of homeostatic thymus hormone consist predominantly of histones 2A and 2B and suggest additional histone functions.

The two major constituents in preparations of the homeostatic thymus hormone (HTH) were purified. Amino acid sequence analysis showed that the components (HTH alpha and HTH beta) are identical to histones H2A and H2B, suggesting the possibility that histones might have hitherto unrecognized occurrence and functions. If the HTH activities are not ascribed to the two histones in the preparation, they could only be derived from minor constituents present in minimal amounts. Therefore, the histone structures were scrutinized for properties of relevance in relation to hormone activities and for similarities with thymic hormones. Similarities between COOH-terminal regions of histones H2A, H2B, and H3 were noticed, as well as some similarities between NH2-terminal regions of histones and parts of recognized thymus hormones and related proteins. Potential signals, resembling cleavage sites in prohormones, are present in the histone structures, and further correlations with recently discovered ubiquitin functions may explain molecular mechanisms for actions of the HTH preparations. None of the observations is significant by itself, but the combined results suggest the hypothesis of different relationships and functions, including hormone-like activities, for some histones.

Homeostatic thymus hormone stimulates corticosterone secretion in a dose- and age-dependent manner in rats.

There is increasing evidence that the neuroendocrine system is responsive to hormonal signals generated by the immune systems. In particular, interleukin-1 and thymosin have been shown to stimulate the pituitary-adrenal axis in young animals. We report here that homeostatic thymus hormone (HTH), a well-characterized thymic preparation, increases plasma levels of corticosterone but not prolactin (PRL) in a dose- and age-dependent manner in male Sprague-Dawley rats. Young (3 months) and old (26 months) conscious, free-moving animals carrying an indwelling atrial cannula received the substances to be tested via the cannulas. Plasma samples were taken every 30 min for 5 h and hormones were measured by radioimmunoassay. HTH doses of 1 and 8 mg/kg body weight injected into young rats elicited a 7.8- and 12.8-fold increase in plasma corticosterone, respectively, as compared to saline-injected controls. The HTH-induced peak corticosterone levels were reached within 1.5 and 2.5 h after HTH injection. Plasma PRL was not affected by HTH in either age group. A single dose of 8 mg HTH/kg body weight induced a smaller corticosterone response in old than in young rats, although the time course of the response was similar in both age groups. The present results further suggest the existence of a lymphoid-neuroendocrine axis in young animals. The data also suggest that a disruption in immune-endocrine integration occurs during aging in rats.