Over 80 years has passed since the discovery of substance P (SP), and a variety of peptides of the tachykinin (TK) family have been found and investigated. SP, neurokinin A (NKA), and neurokinin B (NKB) are representative peptides in mammalian species. SP and NKA are major excitatory neurotransmitters in the peripheral nervous system, while NKB is primarily involved in the central nervous system (CNS). Moreover, TK peptides play roles not only as neurotransmitters but also as local factors and are involved in almost all aspects of the regulation of physiological functions and pathophysiological processes. The role of SP as a mediator of pain processing and inflammation in peripheral tissues in coordination with transient receptor potential channels is well established, while novel aspects of TKs in relation to hematopoiesis, venous thromboembolism, tendinopathy, and taste perception have been clarified. In the CNS, the NKB signaling system in the hypothalamus has been shown to play a crucial role in the regulation of gonadotropin hormone secretion and the onset of puberty, and molecular biological studies have elucidated novel prophylaxic activities of TKs against neurogenic movement disorders based on their molecular structure. This review provides an overview of the novel aspects of TKs reported around the world in the last 5 years, with particular focus on nociception, inflammation, hemopoiesis, gonadotropin secretion, and CNS diseases.
SUMMARYTo clarify the relative timing of clinical changes in duodenal motility and pancreatic secretion in newborn calves, we recorded duodenal electrical and mechanical activity and analysed pancreatic secretion and migrating myoelectric complex (MMC). In eight calves integrated recordings were derived from sites near the duodenal bulb and pancreatic accessory duct orifice, and pancreatic juice was sampled after an overnight fast, after a feed, and during reversible cold vagal blockade. Peak secretion coincided with duodenal irregular spiking activity and the nadir with absence of spiking. Feeding elicited electrical and mechanical hyperactivity in the duodenum, dissipated the MMC temporarily, and dramatically increased the juice volume and bicarbonate and protein outputs. Periodic fluctuations in secretion started shortly after a feed, as did recovery of the duodenal myoelectric complexes. Cold vagal blockade reversibly disrupted the synchronous changes in duodenal motility and pancreatic secretory activity, though the close association was not totally obliterated. In milk-fed calves interdigestive pancreatic secretion apparently rises and falls in phase with migrating myoelectric complexes of the proximal duodenum and the vagus is largely, though not exclusively, responsible for co-ordinating these changes.
Ghrelin stimulates gastric motility of the guinea pig through activation of capsaicin-sensitive vago-vagal reflex pathway including efferent cholinergic neurons. Peripheral ghrelin receptors on enteric nitrergic nerves might affect the ghrelin-induced gastric action by releasing nitric oxide.
The chemical specificity and structural requirements of short-chain fatty acids (SCFAs) in stimulating pancreatic endocrine responses was investigated in conscious sheep. Normal SCFAs with one to eight carbons were injected intravenously at seven doses of 39-2,500 mumol/kg body wt. The isomers or derivatives of SCFAs were administered at 625 mumol/kg body wt. Analysis of dose-response curves showed that n-butyric acid (4 carbons in the molecule) was most effective for both insulin and glucagon secretion among the normal SCFAs tested. In addition, one carboxylic group was absolutely required, since hormone secretion was significantly reduced or abolished with compounds in which the carboxylic element was replaced by other groups and with dicarboxylic acids. The form of the hydrocarbon chain (branched, cyclic, or benzoic ring) also affected hormone secretory activity. Most of the compounds that replaced hydrogen in the hydrocarbon chain by other groups at various positions reduced or abolished the hormone secretory effect obtained by n-butyric acid. In conclusion, a monocarboxylic acid with several numbers of hydrocarbons was required for insulin or glucagon secretion. These results suggest that the pancreatic endocrine system can recognize the chemical structure of SCFAs in detail and induce hormone secretion in sheep.
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