A novel substance P binding site in rat brain regions modulates TRH receptor binding

Binding sites for thyrotropin-releasing hormone (TRH) were labelled with ³H](2-Me-His³)TRH (³H]MeTRH) on membranes from rat brain regions at 0°C for 5 h. Amygdaloid membranes bound ³H]MeTRH with high-affinity (K _d=3.1±0.5 nM (n=4)). Five TRH analogs competed for this binding with the same rank order and with affinities that matched the pharmacological specificity of pituitary TRH receptors. Substance P (SP) and its C-terminal fragments reduced amygdaloid TRH receptor binding in a concentration dependent manner (IC₅₀ for SP=65 M). The rank order of potency of SP analogs at inhibiting TRH receptor binding was: SP>nonapeptide (3–11)>hexapeptide (6–11)>heptapeptide (5–11)>pentapeptide (7–11). However, other tachykinins were inactive in this system. SP was a potent inhibitor of ³H]MeTRH binding in hippocampus> spinal cord>retina>n. accumbens>hypothalamus>amygdaloid>olfactory bulb pituitary>pons/medulla in parallel assays. In amygdaloid membranes SP (50 M) reduced the apparent maximum receptor density by 39% (p<0.01) without altering the binding affinity, and 100 M SP induced a biphasic dissociation of ³H]MeTRH with kinetics faster than those induced by both TRH (10 M) and serotonin (100 M). In contrast, other neuropeptides such as neurotensin, proctolin, angiotensin II, bombesin and luteinizing hormone releasing hormone did not significantly inhibit ³H]MeTRH binding to amydaloid membranes. Thus, the SP site with low affinity in the rat brain is not like any of the previously described tachykinin/neurokinin binding sites but resembles the site found on neuroblastoma cells (108CC15) and on adrenal chromaffin cells that modulate cation permeability and nicotinic receptors respectively. The physiological role of these atypical SP sites in the rat brain remains to be determined.A preliminary account of these studies has been presented to the British Pharmacological Society (9).