The synthesis of five amino phosphorus derivatives, 1a-e, is described. The derivatives were incorporated into a series (18) of analogues of the 5-14 portion of angiotensinogen, in most cases at the scissile Leu-Val bond. The resultant compounds were tested in vitro for their ability to inhibit human plasma renin. Replacement of the scissile bond with the phosphinic analogue of Leu10-Val11 (1b) gave the most potent inhibitors, having IC50 = 7.5 x 10(-8) M for H-Pro-His-Pro-Phe-His-(1b)-Ile-His-Lys-OH and IC50 = 1.0 x 10(-7) M for Z-Arg-Arg-Pro-Phe-His-(1b)-Ile-His-NH2. The shorter phosphonic acid sequence Z-Pro-Phe-His-(1d) retained biological activity with an IC50 = 6.4 x 10(-6) M.
The undecapeptide substance P is a putative neurotransmitter in the mammalian central nervous system (CNS), and may be associated with pain fibres in the spinal cord. Radiolabelled derivatives of other neuropeptides have been used to demonstrate specific interactions with receptor sites on brain membranes, and this approach has now been explored with substance P. We have now prepared [4-3H-Phe8]-substance P and we find that it binds reversibly to a saturable population of sites in rat brain particulate fractions. Scatchard analysis of concentration-dependent saturation of binding indicates a single population of non-interacting sites with a high affinity (Kd=0.38 nM) and a low density (Bmax=27.2 fmol per mg protein). Kinetic analyses indicate an apparent dissociation equilibrium constant of 0.46 nM. A variety of neurotransmitter amines and amino acids, and other peptides do not compete at the substance P sites, but structurally related peptides or shorter C-terminal fragments of substance P are active. The rank order of potency of these substance P-related peptides agrees with that reported for their effects in depolarizing spinal cord neurones. The regional distribution of the specific binding sites for 3H-substance P parallels that of substance P immunoreactivity, being high in the hypothalamus and low in the cerebellum and cerebral cortex. The characteristics of the 3H-substance P binding sites are consistent with those expected for substance P receptors.
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