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Query: DrugBank:EXPT02427 (
Atropine
)
3,300
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Exocrine and endocrine release of rat submandibular gland kallikrein has been shown to be low after parasympathetic and beta-adrenergic stimulation but greatly increased after alpha-adrenergic stimulation. In the present study, release of
glandular kallikrein
was investigated under conditions known to give a reflex-induced salivary gland response. Heat stress induced a rich flow of saliva originating in the submandibular glands. Salivary kallikrein secretory rate was higher than after parasympathetic stimulation but lower than after sympathetic stimulation (P less than 0.005). Only heat stress increased circulating
glandular kallikrein
(12.7 +/- 0.8 ng ml-1 before heat exposure and 53.3 +/- 14.1 ng ml-1 40 min afterwards, P less than 0.005). There were no indications that the endocrine release of kallikrein was due to non-specific leakage.
Atropine
abolished heat-induced salivation and endocrine kallikrein secretion, possibly through interference with central pathways (P less than 0.05). However, phentolamine did not, which may indicate as an yet unidentified mediator of endogenous kallikrein release. The salivary gland response to acid and ether was comparable to that observed after parasympathetic nerve stimulation and was abolished by atropine (P less than 0.005). Stimuli known to influence other salivary gland ductal cells, such as aggression and starvation followed by drinking, also did not increase the plasma concentration of
glandular kallikrein
. The fact that various conditions which induce salivation did not increase circulating
glandular kallikrein
, coupled with the fact that kallikrein concentration was the highest in animals that died from heat stress, may suggest that the increase in circulating
glandular kallikrein
seen after heat stress may be pathological and could contribute to the development of heat shock.
...
PMID:Exocrine and endocrine release of kallikrein after reflex-induced salivary secretion. 235 56
Cephalic stimulation by food elicits, among other responses, dilatation of mesenteric blood vessels preparatory for digestion. The possible participation of bradykinin (BK), a powerful endogenous vasodilator, in this response was studied in fasted rats prior and following stimulation by sight and scent of food (sensory stimulation, SS), actual ingestion being denied to the animals. BK content of plasma high (HK) and low molecular weight kininogen (LK) was determined by bioassay on the atropinized, antihistamine-treated isolated guinea-pig ileum following release by trypsin from heat/acid denatured plasma. BK corresponding to LK was estimated in plasma which prior to denaturation had been incubated with kaolin, a process which leads to quantitative release and inactivation of BK from HK, but does not affect LK. BK corresponding to (HK + LK) was determined in plasma not exposed to kaolin. BK contained in HK was the difference between BK of (HK + LK) and of BK of LK. Plasma and glandular kallikreins were estimated by fluorimetry, using specific synthetic substrates. A 40.6+/-4.0% decrease (P<0.001) of BK in HK occurred in rats after 90 s of SS; LK remained unaffected. Ten minutes of SS did not result in further change.
Atropine
inhibited the effect of SS. Return of HK to pretreatment levels occurred when, following 90s of SS, rats were allowed to rest for 60 min in the absence of food. Renewed capacity to respond to SS was then observed. Plasma kallikrein, but not
glandular kallikrein
, increased in plasma of rats after SS. Increased free BK was detected in the circulation of Enalapril-protected rats after SS. Electrical stimulation of the distal sector of the sectioned left abdominal vagus nerve of Nembutal-anesthetized fasted rats reproduced the effect of SS on HK. It is concluded that visuo-olfactory stimulation by food generates nerve impulses, possibly carried by the vagus nerve, which by activating plasma kallikrein lead to cleavage of circulatory HK and release of BK in the rat.
...
PMID:Bradykinin release from high molecular weight kininogen and increase in plasma kallikrein-like activity following sensory stimulation by food in the rat. 982 71
