Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P50583 (asymmetrical)
 12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There are important asymmetries in brain functions such as emotional processing and stress response in humans and animals. Knowledge of the bilateral distribution of brain neurotransmitters is important to appropriately understand its functions. Some peptides such as those included in the renin-angiotensin system (RAS) and cholecystokinin (CCK) are related to modulation of behavior and stress. However, although angiotensin AT1 and CCK type 2 receptors were found in adult rat brain, there are no studies of their bilateral distribution in stress-related areas. The function of angiotensin peptides is depending on the action of several aminopeptidases (AP) called angiotensinases, some of them being also involved in the metabolism of CCK. We have studied the bilateral distribution of soluble (SOL) and membrane-bound (MEM) alanyl- (AlaAP), cystinyl- (CysAP), glutamyl- (GluAP) and aspartyl- (AspAP) AP activities in stress-related areas such as amygdala, hippocampus and medial prefrontal cortex of adult male rats in resting conditions. These enzymes are involved in the metabolism of angiotensins (AlaAP, CysAP, GluAP, AspAP) and CCK (GluAP, AspAP). In the amygdala, all the activities studied showed a right predominance with a significant difference ranging from 30% for SOL CysAP to 125% for SOL GluAP. In the hippocampus, there was a left predominance for SOL AlaAP, SOL and MEM CysAP and MEM AspAP activities (100, 80, 300 and 100% higher, respectively). In contrast, GluAP predominated remarkably in the right hippocampus (eight-fold for SOL and three-fold for MEM). In the prefrontal cortex, SOL and MEM CysAP and SOL AspAP predominated in the left hemisphere (40, 100 and 40% higher, respectively). These results demonstrated a heterogeneous bilateral pattern of angiotensinase activities in motivation and stress-related areas. This may reflect an uneven asymmetrical distribution of their endogenous substrates depending on the brain location and consequently, it would be also a reflect of the asymmetries in the functions they are involved in.
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PMID:Angiotensinase activity is asymmetrically distributed in the amygdala, hippocampus and prefrontal cortex of the rat. 1558 18

Plasma angiotensinase activity, nitric oxide and systolic blood pressure (SBP) were differently affected after unilateral intrastriatal injection of 6-hydroxydopamine (6-OHDA), depending on the brain hemisphere injured. Moreover, normotensive and hypertensive rats responded differently suggesting an asymmetry in the organization of the autonomic nervous system of the vessels. The aim of this study was to investigate the evolution of SBP and heart rate (HR) over time after nigrostriatal lesions in normotensive and hypertensive rat strains. Unilateral depletions of brain dopamine were performed by injecting 6-OHDA into the left or right striatum of normotensive and hypertensive rats. Vehicle without 6-OHDA was unilaterally injected in control (sham) groups. SBP and heart rate (HR) were measured in un-anesthetised animals 10 and 3 days before administration of 6-OHDA or vehicle and 3 and 25 days after treatment. In normotensive rats, at the end of study, SBP increased significantly from pre-lesioned values in left-lesioned animals but no differences were observed in right-lesioned or sham groups. Before sacrifice, there was a significant reduction from pre-lesion values in HR. In hypertensive animals, there was a highly significant increase of SBP in left-lesioned and sham left rats and a slight increase in right-lesioned but no differences were observed in sham right group. No differences in HR were observed throughout the study in the groups studied. The present results represent direct experimental evidence of an asymmetrical cardiovascular response to unilateral brain lesions, suggesting that left injury may have a worst prognosis.
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PMID:Blood pressure increased dramatically in hypertensive rats after left hemisphere lesions with 6-hydroxydopamine. 2172 7

Aminopeptidase A is responsible for the hydrolysis of angiotensin II and cholecystokinin. By measuring its activity we obtain a reflection of the functional status of its endogenous substrates. Dopamine coexists with these neuropeptides in striatum and prefrontal cortex. If the content of any of them is altered, the others and the functions they are involved in would also be affected. Wistar Kyoto (WKY) and spontaneously hypertensive rats (SHR) are rat models with different motor behavior and mood. We hypothesized that aminopeptidase A activity could be modified in WKY or SHR affecting the brain dopamine. The results may provide new insights for the understanding of dopamine-related disorders such as schizophrenia, depression or Parkinson's disease. To analyze the influence of unilateral depletions of dopamine on the intra- and inter-hemispheric behavior of aminopeptidase A in striatum and prefrontal cortex of WKY and SHR, aminopeptidase A activity was measured fluorometrically, using an arylamide derivative as substrate, in the left and right sides of striatum and prefrontal cortex of WKY and SHR treated with saline (control groups) or following left or right intrastriatal injections of 6-hydroxydopamine (lesioned groups). Differential asymmetrical intra- and inter-hemispheric behaviors of aminopeptidase A were observed, depending on the lesioned hemisphere, the region and the strain analyzed. Results also demonstrated differential intra and inter-hemispheric correlations between striatum and prefrontal cortex and between both regions and motor behavior depending on the side of lesion. The changes mostly involved the left hemisphere. The functions in which the aminopeptidase A activity is involved could be modified depending on whether the dopamine depletion occurs on the left or right hemisphere.
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PMID:Asymmetrical response of aminopeptidase A in the medial prefrontal cortex and striatum of 6-OHDA-unilaterally-lesioned Wistar Kyoto and spontaneously hypertensive rats. 3112 99