Effects of recombinant human
Tumor Necrosis Factor (rHu-TNF, PT-050) administered s.c. and i.v. on the central nervous system were investigated behaviorally and physiologically in different animal species. With i.v. administration at doses of 10(4) U/kg and less, PT-050 produced no significant changes in most of behavioral and physiological tests, except that a transient increase in rectal temperature in dogs occurred with 0.765 x 10(4) U/kg and
acetic acid-induced writhing syndrome in mice was inhibited with 10(4) U/kg. Locomotor activity in mice was inhibited after 3 x 10(4) U/kg. With 10(5) U/kg and more, in addition to the above effects, diverse effects were observed as follows: various symptoms were induced in general behavior in mice such as piloerection,
catalepsy, lowering of body position, ptosis and pupil dilatation; rectal temperature was increased in rats and decreased in mice; cortical EEG was synchronized in hippocampal theta waves were disturbed in
gallamine-immobilized cats. On the other hand, with s.c. administration, the effect on rectal temperature was seen
at 10(4) U/kg in dogs and
at 10(5) U/kg in rats. Cortical EEG in conscious rabbits was affected with 10(6) U/kg. At higher dose of 10(7) U/kg. PT-050 (s.c.) further influenced locomotor activity, rectal temperature and
acetic acid-induced writhing syndrome in mice. However, even with 10(7) U/kg (s.c.), no effect was found in general behavior, rotarod performance and
hexobarbital narcosis in mice. Thus, it is concluded that PT-050 has weaker effects on the central nervous system by s.c. route than by i.v. route. From the present findings and the efficacy of PT-050 as TNF, it is suggested that PT-050, when administered intratumorally, may be useful for
cancer therapy without severe side effects.