The theaflavin fraction is responsible for the facilitatory effect of black tea at the skeletal myoneural junction.

The effect of various fractions of black tea [(Camellia Sinensis) (L) O. Kuntze (Theaceae)] on the function of mammalian skeletomotor apparatus was studied. The theaflavin fraction (Tfs) produced a concentration- dependent facilitation of indirect twitch responses of the rat phrenic nerve diaphragm preparation and the facilitation was dependent on the amount of calcium present in the bathing fluid. Nifedipine reduced the facilitatory effect of Tfs as a function of its concentration. Tfs failed to produce facilitation when the twitch height was reduced to about 50% of the control value in presence of magnesium chloride. Tfs completely antagonized the submaximal paralytic effect of d- tubocurarine and decamethonium bromide. Tfs did not have any effect on direct twitch responses or on acetylcholine (Ach) and potassium chloride (KCl) induced contractures of denervated diaphragm. The results revealed that the site of action of Tfs is on the contractile mechanism of the voluntary muscle and point to a critical role of calcium in the mechanism of action of Tfs. N omega-nitro-L-arginine-methyl ester (L-NAME), a nitric oxide synthase (NOS) inhibitor, antagonized both the facilitatory and inhibitory effects on indirect twitch responses of rat diaphragm induced by L-arginine and Tfs when the phrenic nerve was stimulated at 5 Hz and 50 Hz respectively. The thearubigin (Trs) fraction of black tea and the aqueous part which is completely devoid of Tfs, did not potentiate the twitch responses. The findings suggest that Tfs have a potentiating effect on the contractile mechanism of skeletal muscle and that calcium and nitric oxide may modulate this action of Tfs.

Possible functional role of substance P on the mammalian motor nerve terminals.

The effect of substance P (sP) on mammalian skeletal myoneural transmission was studied employing innervated and denervated isolated rat diaphragm preparations. sP at a concentration of 3.7 nM facilitated the indirect twitch responses of the rat diaphragm and antagonised the paralytic effect of d-tubocurarine (d-Tc). sP failed to affect the direct twitch responses as well as the contractures induced by acetylcholine (ACh) and potassium chloride (KCl) in the denervated diaphragm. The amount of ACh released into the bathing medium in response to tetanic stimulation of the phrenic nerve was doubled in presence of sP. The study illustrates a presynaptic facilitatory involvement of sP on mammalian myoneural transmission.