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1. Handedness and gender influence blood pressure in young healthy men and women: A pilot study

Author

Rueda I, Banegas I, Prieto I, Wangensteen R, Segarra AB, Villarejo AB, De Gasparo M, Luna JD, Vives F, Ruiz-Bailen M, and Ramirez-Sanchez M

Subjects
brain asymmetry, handedness, sex hormones, blood pressure, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Objective. The type and level of sex steroids influence blood pressure (BP). It has been suggested that functional brain asymmetries may be influenced by sex hormones. In addition, there are inter-arm differences in BP not yet related with handedness. In this study, we hypothesize a possible association between sex hormones, handedness, and inter-arm differences in blood pressure.

Published
2016
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3. Angiotensin II, dopamine and nitric oxide. An asymmetrical neurovisceral interaction between brain and plasma to regulate blood pressure.

Author

Banegas, I., Prieto, I., Segarra, A.B., Martínez-Cañamero, M., Gasparo, M. de, and Ramírez-Sánchez, M.

Subjects
*ANGIOTENSIN II, *BLOOD pressure, *BLOOD plasma, *NITRIC oxide, *REGULATION of blood pressure
Abstract

Vital functions, such as blood pressure, are regulated within a framework of neurovisceral integration in which various factors are involved under normal conditions maintaining a delicate balance. Imbalance of any of these factors can lead to various pathologies. Blood pressure control is the result of the balanced action of central and peripheral factors that increase or decrease. Special attention for blood pressure control was put on the neurovisceral interaction between Angiotensin II and the enzymes that regulate its activity as well as on nitric oxide and dopamine. Several studies have shown that such interaction is asymmetrically organized. These studies suggest that the neuronal activity related to the production of nitric oxide in plasma is also lateralized and, consequently, changes in plasma nitric oxide influence neuronal function. This observation provides a new aspect revealing the complexity of the blood pressure regulation and, undoubtedly, makes such study more motivating as it may affect the approach for treatment. [ABSTRACT FROM AUTHOR]

Published
2019
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5. Study of the Neuropeptide Function in Parkinson's Disease Using the 6-Hydroxydopamine Model of Experimental Hemiparkinsonism.

Author

Banegas, I., Prieto, I., Segarra, A. B., de Gasparo, M., and Ramírez-Sánchez, M.

Subjects
*NEUROPEPTIDES, *PARKINSON'S disease, *DOPAMINE
Abstract

Parkinson's disease, one of the most common neurodegenerative diseases, characterized by unilateral brain dopamine damage in its initial stages, remains unknown in many respects. It is especially necessary to improve the early diagnosis and, in order to improve the treatment, to go thoroughly into the knowledge of its pathophysiology. To do this, it is essential to perform studies in appropriate animal models of the disease. One of those is generated by the unilateral intracerebral administration of the neurotoxic 6-hydroxydopamine that produces clear asymmetrical cerebral dopamine depletion. Currently the neuronal coexistence of several neurotransmitters is obvious. Particularly interesting is the coexistence of dopamine with various neuropeptides. If the neuronal content of dopamine is asymmetrically altered in the early stages of the Parkinson's disease, the coexisting neuropeptides may also be asymmetrically altered. Therefore, their study is important to appropriately understand the pathogenesis of the Parkinson's disease. The function of the neuropeptides can be studied through their metabolism by neuropeptidases whose activity reflects the functional status of their endogenous substrates as well as the one of the peptides resulting from their hydrolysis. Here we review the 6-hydroxydopamine model of experimental hemiparkinsonism as an appropriate model to study the initial asymmetric stages of the disease. In particular, we analyze the consequences of unilateral brain dopamine depletions on the functionality of brain neuropeptides through the study of the activity of cerebral neuropeptidases. [ABSTRACT FROM AUTHOR]

Published
2017
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14. Enkephalinase activity is modified and correlates with fatty acids in frontal cortex depending on fish, olive or coconut oil used in the diet

Author

Segarra Ana B., Prieto Isabel, Martinez-Canamero Magdalena, Ruiz-Sanz Jose-Ignacio, Ruiz-Larrea M. Begona, De Gasparo Marc, Banegas Inmaculada, Zorad Stefan, and Ramirez-Sanchez Manuel

Subjects
diet, fatty acids, enkephalinases, enkephalins, frontal cortex, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Objective. Enkephalins are neuropeptides involved in functions such as pain modulation and/ or cognitive processes. It has been reported that dietary fat modifies enkephalins in the brain. Since enkephalins are hydrolyzed by enkephalinases, the study of the influence of dietary fats, differing in their degree of saturation, on brain fatty acids content and enkephalinase activity is important to understand its regulatory role on neuropeptides under different type of diets.

Published
2019
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19. Effects of Antihypertensive Drugs on Angiotensinase Activities in the Testis of Spontaneously Hypertensive Rats.

Author

Segarra, A. B., Prieto, I., Villarejo, A. B., Banegas, I., Wangensteen, R., De Gasparo, M., Vives, F., and Ramírez-Sánchez, M.

Subjects
SEXUAL dysfunction, ANTIHYPERTENSIVE agents, ANGIOTENSINS, DRUG additives, DRUG efficacy, THERAPEUTICS, DISEASE risk factors
Abstract

Sexual dysfunction is a frequent adverse effect during antihypertensive therapy. However, the mechanisms responsible for these effects are not well understood. The renin-angiotensin system has been identified in testis where it may play a role in testicular function and be involved in the detrimental effects of antihypertensive drugs. Therefore, our objective was to compare the influence of captopril and propranolol on plasma testosterone levels and on hydrolyzing angiotensin's enzymes (angiotensinases) in the testis of spontaneously hypertensive rats (SHRs) and in control animals. Twenty-four adult male SHRs were used in this study; eight were treated with captopril in drinking water, 8 with propranolol, and 8 were controls. At the end of the 4 weeks treatment period, systolic blood pressure (SBP) was recorded, blood samples were collected, and the right testis was dissected after perfusion of the rat with saline. The soluble (Sol) and membrane- bound (MB) fractions were obtained after solubilization and ultracentrifugation. Fluorometric measurement of Sol and MB angiotensinase activities were performed using arylamide derivatives as substrates. Testosterone was measured by enzyme immunoassay. SBP decreased after captopril but did not change with propranolol treatment. Whereas captopril did not affect angiotensinase activities, highly significant reductions in Sol and MB angiotensinase activities, particularly glutamyl- and aspartylaminopeptidases, were observed after treatment with propranolol. Plasma testosterone decreased in captopril treated rats but propranolol had a greater effect. The present results support a general functional depression of the RAS cascade in the testis of propranolol-treated SHR, which may influence the sexual function of these animals. [ABSTRACT FROM AUTHOR]

Published
2013
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20. The Profile of Fatty Acids in Frontal Cortex of Rats Depends on the Type of Fat Used in the Diet and Correlates with Neuropeptidase Activities.

Author

Segarra, A. B., Ruiz-Sanz, J. I., Ruiz-Larrea, M. B., Ram�rez-S�nchez, M., de Gasparo, M., Banegas, I., Mart�nez-Ca�amero, M., Vives, F., and Prieto, I.

Abstract

The kind of fat in the diet modifies the profile of fatty acids in brain and also affects aminopeptidase activities in tissues. Although modifications in brain fatty acids, neurotransmitters, or enzymes due to dietary fat composition have been reported, no direct relationship has yet been described between specific brain fatty acid changes and neuropeptide metabolism following the fat composition of the diet. We investigated the lipid profile and some neuropeptidase activities in the frontal cortex of adult male rats after a period in which diets were supplemented with fatty acids differing in their degrees of saturation such as fish oil (rich in polyunsaturated fatty acids, PUFAs), olive oil (rich in monounsaturated fatty acids, MUFAs), and coconut oil (rich in saturated fatty acids, SAFAs). It is observed that the diet composition affects fatty acid distribution in the brain. Although there is no change of global aminopeptidase/neuropeptidase, their activities in the brain correlate positively or negatively with the dietary fat composition. It is hypothesized that fatty acid in the diet modifies membrane fluidity, peptidases tertiary structure, and therefore, the availability and function of neuropeptides. The present results support the notion that cognitive functions may be modulated depending on the type of fat used in the diet. [ABSTRACT FROM AUTHOR]

Published
2011
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21. Role of central and peripheral aminopeptidase activities in the control of blood pressure: a working hypothesis.

Author

Ramírez M, Prieto I, Alba F, Vives F, Banegas I, de Gasparo M, Ramírez, Manuel, Prieto, Isabel, Alba, Francisco, Vives, Francisco, Banegas, Inmaculada, and de Gasparo, Marc

Abstract

Although there is a large body of knowledge on protein synthesis, the available data on protein catabolism, although quite substantial, are still inadequate. This is due to the marked differences in the activity of proteolytic enzymes, compounded by different substrate specificities and multiple environmental factors. Understanding enzyme behavior under physiological and pathological conditions requires the identification of specific proteolytic activities, such as aminopeptidases, as able to degrade certain peptidergic hormones or neuropeptides. Another requirement is the isolation, purification and characterization of the enzymes involved. In addition, systematic studies are needed to determine each enzyme's subcellular location, tissue distribution, and the influence of environmental factors such as diurnal rhythm, age, gender, diet, cholesterol, or steroids. Central and peripheral aminopeptidases may play a role in the control of blood pressure by coordinating the effect of the different peptides of the renin-angiotensin system cascade, acting through the AT(1), AT(2), and AT(4) receptors. Our review of the available data suggests the hypothesis that cholesterol or steroids, particularly testosterone, significantly influence aminopeptidase activities, their substrate availability and consequently their functions. These observations may have relevant clinical implications for a better understanding of the pathophysiology of cardiovascular diseases, and thus for their treatment with aminopeptidase inhibitors. [ABSTRACT FROM AUTHOR]

Published
2008
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22. Brain aminopeptidases and hypertension.

Author

Banegas I, Prieto I, Vives F, Alba F, de Gasparo M, Segarra AB, Hermoso F, Durán R, and Ramírez M

Abstract

The brain aminopeptidases that participate in the enzymatic cascade of the renin-angiotensin system play a major role in blood pressure (BP) control, and their study offers new perspectives for the understanding of central BP control and the treatment of hypertension. In this system, angiotensin II is converted to angiotensin III (Ang III) by glutamyl aminopeptidase (GluAP) and Ang III is further metabolised to angiotensin IV by alanyl aminopeptidase or arginine-aminopeptidase. It is now clear that Ang III is the key active form of the central angiotensins, exerting tonic stimulatory control over BP. Therefore, the development of GluAP inhibitors as potential antihypertensive agents offers new perspectives for therapy. Brain aspartyl aminopeptidase, which converts angiotensin I to angiotensin 2-10, is also a possible target for antihypertensive therapy because of its potential role in BP control. Finally, since changes in BP levels, that paralleled changes in brain and plasma aminopeptidase activities, were observed after unilateral lesions of the nigrostriatal system, brain asymmetry, aminopeptidase activities and BP control appear to be related, resulting their interplay in an asymmetrical neuroendocrine response that differentially affect BP control. The study of this interaction may contribute to our understanding of how the brain controls BP. [ABSTRACT FROM AUTHOR]

Published
2006
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23. Angiotensinase and Vasopressinase Activities in Hypothalamus, Plasma, and Kidney after Inhibition of Angiotensin-converting Enzyme: Basis for a New Working Hypothesis.

Author

Villarejo, A. B., Segarra, A. B., Ramírez, M., Banegas, I., Wangensteen, R., de Gasparo, M., Cobo, J., Alba, F., Vives, F., and Prieto, I.

Subjects
HYPERTENSION, ANGIOTENSIN converting enzyme, ANGIOTENSINS, VASOPRESSIN, PITUITARY hormones
Abstract

Reducing angiotensin II (Ang II) production via angiotensin-converting enzyme (ACE) inhibitors is a key approach for the treatment of hypertension. However, these inhibitors may also affect other enzymes, such as angiotensinases and vasopressinase, responsible for the metabolism of other peptides also involved in blood pressure control, such as Ang 2-10, Ang III, Ang IV, and vasopressin. We analyzed the activity of these enzymes in the hypothalamus, plasma, and kidney of normotensive adult male rats after inhibition of ACE with captopril. Aspartyl- (AspAP), glutamyl- (GluAP), alanyl- (AlaAP) and cystinyl-aminopeptidase (CysAP) activities were measured fluorimetrically using arylamides as substrates. Systolic blood pressure (SBP), water intake, and urine flow were also measured. Captopril reduced SBP and increased urine flow. In the hypothalamus, GluAP and AspAP increased, without significant changes in either AlaAP or CysAP. In contrast with effects in plasma, GluAP was unaffected, AspAP decreased, while AlaAP and CysAP increased. In the kidney, enzymatic activities did not change in the cortex, but decreased in the medulla. These data suggest that after ACE inhibition, the metabolism of Ang I in hypothalamus may lead mainly to Ang 2-10 formation. In plasma, the results suggest an increased formation of Ang IV together with increased vasopressinase activity. In the kidney, there is a reduction of vasopressinase activity in the medulla, suggesting a functional reduction of vasopressin in this location. The present data suggest the existence of alternative pathways in addition to ACE inhibition that might be involved in reducing BP after captopril treatment. [ABSTRACT FROM AUTHOR]

Published
2012
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24. Blood pressure increased dramatically in hypertensive rats after left hemisphere lesions with 6-hydroxydopamine

Author

Banegas, I., Prieto, I., Segarra, A.B., Durán, R., Vives, F., Alba, F., Luna, J.D., de Gasparo, M., Wangesteen, R., Ruiz-Bailén, M., and Ramírez-Sánchez, M.

Subjects
*BLOOD pressure, *CEREBRAL hemispheres, *DOPAMINE, *NITRIC oxide, *HYPERTENSION, *BRAIN damage, *DRUG administration, *LABORATORY rats
Abstract

Abstract: 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. [Copyright &y& Elsevier]

Published
2011
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26. [Brain asymmetry and dopamine: beyond motor implications in Parkinson's disease and experimental hemiparkinsonism]

Author

Ana Belen Segarra, Banegas I, Prieto I, and Ramirez-Sanchez M

Subjects
Dopamine, Brain, Humans, Parkinson Disease
Abstract

Brain asymmetry could be defined as the existence of functional, anatomic or neurochemical differences between both hemispheres. It is a dynamic phenomenon, regulated by endogenous and exogenous factors. Its functional significance is poorly clarified and is only partially understood in very specific cases such as the relationship between the lateralized brain content of dopamine and its motor effects which is specially patent in Parkinson's disease.The asymmetric brain content of dopamine not only displays lateralized motor effects but also behavioral and autonomic asymmetric consequences. In fact, Parkinson's disease is characterized not only by unilateral motor symptoms that arise at the early stages, but has other non-motor symptoms such as autonomic or cognitive alterations that are also revealed asymmetrically.Brain asymmetry has been underestimated when analyzing the pathogeny of brain diseases and it has been partially studied only in some specific cases, such as Parkinson's disease. However, in order to appropriately understand some brain diseases such as Parkinson's disease, the need to consider this phenomenon has been highlighted.Asimetria cerebral y dopamina: mas alla de las implicaciones motoras en la enfermedad de Parkinson y hemiparkinsonismo experimental.Introduccion. La asimetria cerebral se puede definir como la existencia de diferencias funcionales, anatomicas o neuroquimicas entre los dos hemisferios cerebrales. Se trata de un fenomeno dinamico modulable por factores endogenos y exogenos. Su significado funcional esta apenas aclarado y solo lo esta en algunos casos muy concretos como, por ejemplo, la relacion existente entre el contenido cerebral lateralizado de dopamina y sus efectos motores, que se manifiesta especialmente en la enfermedad de Parkinson. Desarrollo. El contenido asimetrico cerebral de dopamina no solo da lugar a efectos motores lateralizados, sino que se extiende a consecuencias autonomicas y de conducta igualmente lateralizadas. De hecho, la enfermedad de Parkinson se caracteriza por sintomas motores unilaterales, que surgen en las fases iniciales de la enfermedad, y por otros sintomas no motores, como alteraciones autonomicas o cognitivas, que tambien se manifiestan de forma lateralizada. Conclusiones. La asimetria cerebral ha sido un aspecto infravalorado a la hora de analizar la patogenia de las enfermedades cerebrales, y solo en determinados casos, como en la enfermedad de Parkinson, se ha profundizado parcialmente en su estudio. Sin embargo, se ha puesto en evidencia que es necesario considerar este fenomeno para la adecuada comprension de algunas patologias cerebrales, como es el caso de la enfermedad de Parkinson.

29. Correlational Study of Aminopeptidase Activities between Left or Right Frontal Cortex versus the Hypothalamus, Pituitary, Adrenal Axis of Spontaneously Hypertensive Rats Treated with Hypotensive or Hypertensive Agents.

Author

Prieto I, Segarra AB, Banegas I, Martínez-Cañamero M, Durán R, Vives F, Domínguez-Vías G, and Ramírez-Sánchez M

Subjects
Rats, Animals, Rats, Inbred SHR, NG-Nitroarginine Methyl Ester pharmacology, Blood Pressure, Hypothalamus, Aminopeptidases, Frontal Lobe, Captopril pharmacology, Hypertension drug therapy
Abstract

It has been suggested that the neuro-visceral integration works asymmetrically and that this asymmetry is dynamic and modifiable by physio-pathological influences. Aminopeptidases of the renin-angiotensin system (angiotensinases) have been shown to be modifiable under such conditions. This article analyzes the interactions of these angiotensinases between the left or right frontal cortex (FC) and the same enzymes in the hypothalamus (HT), pituitary (PT), adrenal (AD) axis (HPA) in control spontaneously hypertensive rats (SHR), in SHR treated with a hypotensive agent in the form of captopril (an angiotensin-converting enzyme inhibitor), and in SHR treated with a hypertensive agent in the form of the L-Arginine hypertensive analogue L-NG-Nitroarginine Methyl Ester (L-NAME). In the control SHR, there were significant negative correlations between the right FC with HPA and positive correlations between the left FC and HPA. In the captopril group, the predominance of negative correlations between the right FC and HPA and positive correlations between the HPA and left FC was maintained. In the L-NAME group, a radical change in all types of interactions was observed; particularly, there was an inversion in the predominance of negative correlations between the HPA and left FC. These results indicated a better balance of neuro-visceral interactions after captopril treatment and an increase in these interactions in the hypertensive animals, especially in those treated with L-NAME.

Published
2023
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30. Aminopeptidase Activities Interact Asymmetrically between Brain, Plasma and Systolic Blood Pressure in Hypertensive Rats Unilaterally Depleted of Dopamine.

Author

Banegas I, Prieto I, Segarra AB, Vives F, Martínez-Cañamero M, Durán R, Luna JD, Domínguez-Vías G, and Ramírez-Sánchez M

Abstract

Brain dopamine, in relation to the limbic system, is involved in cognition and emotion. These functions are asymmetrically processed. Hypertension not only alters such functions but also their asymmetric brain pattern as well as their bilateral pattern of neurovisceral integration. The central and peripheral renin-angiotensin systems, particularly the aminopeptidases involved in its enzymatic cascade, play an important role in blood pressure control. In the present study, we report how these aminopeptidases from left and right cortico-limbic locations, plasma and systolic blood pressure interact among them in spontaneously hypertensive rats (SHR) unilaterally depleted of dopamine. The study comprises left and right sham and left and right lesioned (dopamine-depleted) rats as research groups. Results revealed important differences in the bilateral behavior comparing sham left versus sham right, lesioned left versus lesioned right, and sham versus lesioned animals. Results also suggest an important role for the asymmetrical functioning of the amygdala in cardiovascular control and an asymmetrical behavior in the interaction between the medial prefrontal cortex, hippocampus and amygdala with plasma, depending on the left or right depletion of dopamine. Compared with previous results of a similar study in Wistar-Kyoto (WKY) normotensive rats, the asymmetrical behaviors differ significantly between both WKY and SHR strains.

Published
2022
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31. Vasoconstrictor and Pressor Effects of Des-Aspartate-Angiotensin I in Rat.

Author

Wangensteen R, Gómez-Guzmán M, Banegas I, Rodríguez-Gómez I, Jiménez R, Duarte J, García-Estañ J, and Vargas F

Abstract

This study investigated the vasoactive effects of des-aspartate-angiotensin-I (DAA-I) in male Wistar rats on whole body vascular bed, isolated perfused kidneys, and aortic rings. Dose-response curves to DAA-I were compared with those to angiotensin II (Ang II). The Ang II-type-1 (AT1) receptor blocker, losartan, was used to evaluate the role of AT1 receptors in the responses to DAA-I. Studies were also conducted of the responsiveness in aortic rings after endothelium removal, nitric oxide synthase inhibition, or AT2 receptor blockade. DAA-I induced a dose-related systemic pressor response that was shifted to the right compared with Ang II. Losartan markedly attenuated the responsiveness to DAA-I. DAA-I showed a similar pattern in renal vasculature and aortic rings. In aortic rings, removal of endothelium and nitric oxide inhibition increased the sensitivity and maximal response to DAA-I and Ang II. AT2 receptor blockade did not significantly affect the responsiveness to DAA-I. According to these findings, DAA-I increases the systemic blood pressure and vascular tone in conductance and resistance vessels via AT1 receptor activation. This vasoconstrictor effect of DAA-I participates in the homeostatic control of arterial pressure, which can also contribute to the pathogenesis of hypertension. DAA-I may therefore be a potential therapeutic target in cardiovascular disease.

Published
2022
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32. Asymmetric Interaction of Neuropeptidase Activities between Cortico-Limbic Structures, Plasma and Cardiovascular Function after Unilateral Dopamine Depletions of the Nigrostriatal System.

Author

Banegas I, Prieto I, Segarra AB, Vives F, Martínez-Cañamero M, Durán R, Luna JD, de Gasparo M, Domínguez-Vías G, and Ramírez-Sánchez M

Abstract

In emotional processing, dopamine (DA) plays an essential role, and its deterioration involves important consequences. Under physiological conditions, dopamine exhibits brain asymmetry and coexists with various neuropeptides that can coordinate the processing of brain functions. Brain asymmetry can extend into a broader concept of asymmetric neurovisceral integration, including behavior. The study of the activity of neuropeptide regulatory enzymes (neuropeptidases, NPs) is illustrative. We have observed that the left and right brain areas interact intra- and inter-hemispherically, as well as with peripheral tissues or with physiological parameters such as blood pressure or with behaviors such as turning preference. To obtain data that reflect this integrative behavior, we simultaneously analyzed the impact of left or right brain DA depletion on the activity of various NPs in corticolimbic regions of the left and right hemispheres, such as the medial prefrontal cortex, amygdala and hippocampus, as well as on the plasma activity of the same aminopeptidase activities (APs) and on systolic blood pressure (SBP). Intra- and inter-hemispheric interactions as well as the interactions of NPs from the left or right hemispheres were analyzed with the same plasma APs and the SBP obtained from sham and from left or right lesioned rats. The results demonstrate a complex profile depending on the hemisphere considered. They definitively confirm an asymmetric neurovisceral integration and reveal a higher level of inter-hemispheric corticolimbic interactions including with SBP after left dopamine depletion.

Published
2022
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33. Interaction between Angiotensinase Activities in Pituitary and Adrenal Glands of Wistar-Kyoto and Spontaneously Hypertensive Rats under Hypotensive or Hypertensive Treatments.

Author

Segarra AB, Prieto I, Banegas I, Martínez-Cañamero M, Villarejo AB, Domínguez-Vías G, de Gasparo M, and Ramírez-Sánchez M

Subjects
Adrenal Glands drug effects, Animals, Captopril pharmacology, Endopeptidases genetics, Enzyme Inhibitors pharmacology, Gene Expression Regulation, Enzymologic, Hypertension drug therapy, Hypertension pathology, Hypotension drug therapy, Hypotension pathology, Male, Pituitary Gland drug effects, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Adrenal Glands metabolism, Antihypertensive Agents pharmacology, Endopeptidases metabolism, Hypertension metabolism, Hypotension metabolism, NG-Nitroarginine Methyl Ester pharmacology, Pituitary Gland metabolism
Abstract

In the present study, we analyzed the activity of several aminopeptidases (angiotensinases) involved in the metabolism of various angiotensin peptides, in pituitary and adrenal glands of untreated Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR) or treated with the antihypertensive drugs captopril and propranolol or with the L-Arginine hypertensive analogue L-NG-Nitroarginine Methyl Ester (L-NAME). Intra- and inter-gland correlations between angiotensinase activities were also calculated. Membrane-bound alanyl-, cystinyl-, and glutamyl-aminopeptidase activities were determined fluorometrically using aminoacyl-β-naphthylamide as substrates. Depending on the type of angiotensinase analyzed, the results reflect a complex picture showing substantial differences between glands, strains, and treatments. Alanyl-aminopeptidase responsible for the metabolism of Ang III to Ang IV appears to be the most active angiotensinase in both pituitary and adrenals of WKY and particularly in SHR. Independently of treatment, most positive correlations are observed in the pituitary gland of WKY whereas such positive correlations are predominant in adrenals of SHR. Negative inter-gland correlations were observed in control SHR and L-NAME treated WKY. Positive inter-gland correlations were observed in captopril-treated SHR and propranolol-treated WKY. These results may reflect additional mechanisms for increasing or decreasing systolic blood pressure in WKY or SHR.

Published
2021
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34. The Type of Fat in the Diet Influences the Behavior and the Relationship Between Cystinyl and Alanyl Aminopeptidase Activities in Frontal Cortex, Liver, and Plasma.

Author

Segarra AB, Prieto I, Banegas I, Martínez-Cañamero M, de Gasparo M, Vanderheyden P, Zorad S, and Ramírez-Sánchez M

Abstract

Insulin-regulated aminopeptidase (IRAP, cystinyl aminopeptidase, CysAP) and aminopeptidase M (alanyl aminopeptidase, AlaAP) are closely related enzymes involved in cognitive, metabolic, and cardiovascular functions. These functions may be modulated by the type of fat used in the diet. In order to analyze a possible coordinated response of both enzymes we determined simultaneously their activities in frontal cortex, liver, and plasma of adult male rats fed diets enriched with fats differing in their percentages of saturated, mono or polyunsaturated fatty acids such as sesame, sunflower, fish, olive, Iberian lard, and coconut. The systolic blood pressure, food intake, body and liver weight as well as glucose and total cholesterol levels in plasma were measured. The type of fat in the diet influences the enzymatic activities depending on the enzyme and its location. These results suggest cognitive improvement properties for diets with predominance of polyunsaturated fatty acids. Physiological parameters such as systolic blood pressure, food intake, and biochemical factors such as cholesterol and glucose in plasma were also modified depending on the type of diet, supporting beneficial properties for diets rich in mono and polyunsaturated fatty acids. Inter-tissue correlations between the analyzed parameters were also modified depending on the type of diet. If the type of fat used in the diet modifies the behavior and relationship between CysAP and AlaAP in and between frontal cortex, liver and plasma, the functions in which they are involved could also be modified., (Copyright © 2020 Segarra, Prieto, Banegas, Martínez-Cañamero, de Gasparo, Vanderheyden, Zorad and Ramírez-Sánchez.)

Published
2020
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35. Functional and neurometabolic asymmetry in SHR and WKY rats following vasoactive treatments.

Author

Segarra AB, Prieto-Gomez I, Banegas I, Martínez-Cañamero M, Luna JD, de Gasparo M, and Ramírez-Sánchez M

Subjects
Animals, Antihypertensive Agents administration & dosage, Blood Pressure drug effects, Frontal Lobe drug effects, Frontal Lobe enzymology, Humans, Hypertension enzymology, Hypertension metabolism, Hypertension physiopathology, Male, NG-Nitroarginine Methyl Ester administration & dosage, Peptide Hydrolases metabolism, Propranolol administration & dosage, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Captopril administration & dosage, Hypertension drug therapy
Abstract

A lateralized distribution of neuropeptidase activities in the frontal cortex of normotensive and hypertensive rats has been described depending on the use of some vasoactive drugs and linked to certain mood disorders. Asymmetrical neuroperipheral connections involving neuropeptidases from the left or right hemisphere and aminopeptidases from the heart or plasma have been suggested to play a role in this asymmetry. We hypothesize that such asymmetries could be extended to the connection between the brain and physiologic parameters and metabolic factors from plasma and urine. To assess this hypothesis, we analyzed the possible correlation between neuropeptidases from the left and right frontal cortex with peripheral parameters in normotensive (Wistar Kyoto [WKY]) rats and hypertensive rats (spontaneously hypertensive rats [SHR]) untreated or treated with vasoactive drugs such as captopril, propranolol and L-nitro-arginine methyl ester. Neuropeptidase activities from the frontal cortex were analyzed fluorometrically using arylamide derivatives as substrates. Physiological parameters and metabolic factors from plasma and urine were determined using routine laboratory techniques. Vasoactive drug treatments differentially modified the asymmetrical neuroperipheral pattern by changing the predominance of the correlations between peripheral parameters and central neuropeptidase activities of the left and right frontal cortex. The response pattern also differed between SHR and WKY rats. These results support an asymmetric integrative function of the organism and suggest the possibility of a different neurometabolic response coupled to particular mood disorders, depending on the selected vasoactive drug.

Published
2019
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36. Asymmetrical response of aminopeptidase A in the medial prefrontal cortex and striatum of 6-OHDA-unilaterally-lesioned Wistar Kyoto and spontaneously hypertensive rats.

Author

Banegas I, Segarra AB, Prieto I, Vives F, de Gasparo M, Duran R, de Dios Luna J, and Ramírez-Sánchez M

Subjects
Animals, Behavior, Animal drug effects, Dextroamphetamine administration & dosage, Dextroamphetamine pharmacology, Dopamine metabolism, Enzyme Activation drug effects, Follow-Up Studies, Male, Models, Animal, Motor Activity, Oxidopamine administration & dosage, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Saline Solution administration & dosage, Saline Solution pharmacology, Signal Transduction drug effects, Corpus Striatum metabolism, Glutamyl Aminopeptidase metabolism, Oxidopamine pharmacology, Prefrontal Cortex metabolism
Abstract

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., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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37. Enkephalinase regulation.

Author

Ramírez-Sánchez M, Prieto I, Segarra AB, Martínez-Cañamero M, Banegas I, and de Gasparo M

Subjects
Animals, Brain growth & development, Brain ultrastructure, Brain Chemistry physiology, Circadian Rhythm physiology, Diet, Endocrine System physiology, Enkephalins physiology, Female, Homeostasis, Humans, Male, Neprilysin analysis, Pain Management methods, Stress, Psychological enzymology, Subcellular Fractions chemistry, Tissue Distribution, Neprilysin metabolism
Abstract

After millennia of knowledge of opium, it was only recently that endogenous substances called opioids with similar properties to opium and derivatives were discovered. The first to be discovered were enkephalins. In addition to the regulation of their synthesis and expression of receptors, an important mechanism for the regulation of their functions carried out by multiple proteolytic enzymes acting at all levels of their structure is described. The action of such enzymes, known as enkephalinases, is also regulated by endogenous and exogenous factors which ultimately affect the control of the enkephalins's action. For therapeutic purposes, it is not only necessary to develop specific inhibitors but also to acquire a deep knowledge of the influence that such factors exert on their activities. This knowledge could help us to establish adapted therapeutic strategies in the treatment of pain or other processes in which enkephalinases are involved. In this chapter, some of these regulatory factors are discussed, such as regional and subcellular distribution, developmental changes, diurnal variations, hormonal influences, stress, dietary factors or interactions with other neurotransmitters., (© 2019 Elsevier Inc. All rights reserved.)

Published
2019
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38. Bilateral distribution of enkephalinase activity in the medial prefrontal cortex differs between WKY and SHR rats unilaterally lesioned with 6-hydroxydopamine.

Author

Banegas I, Prieto I, Segarra AB, Vives F, de Gasparo M, Duran R, de Dios Luna J, and Ramírez-Sánchez M

Subjects
Animals, Blood Pressure drug effects, Electroencephalography, Functional Laterality drug effects, Heart Rate drug effects, Male, Motor Activity drug effects, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Rotation, Species Specificity, Statistics as Topic, Functional Laterality physiology, Neprilysin metabolism, Oxidopamine pharmacology, Prefrontal Cortex drug effects, Prefrontal Cortex metabolism, Sympatholytics pharmacology
Abstract

Changes in the basal brain bilateral morphologic, neurochemical and/or functional patterns may be partly responsible for some brain disorders such as those involving mood. WKY and SHR strains as well as 6-hydroxydopamine (6-OHDA)-lesioned animals are validated models for the study of mood disorders. Because dopamine and enkephalins are involved in anxiety-related behaviors, the aim of our study was to analyze enkephalinase activity, assayed as aminopeptidase M activity, in the left and right medial prefrontal cortex (mPFC) of WKY and SHR treated with saline (sham group) or following left or right intrastriatal injections of the neurotoxic 6-OHDA. Sham left and sham right WKY exhibited a significant left predominance. Left 6-OHDA-lesioned rats inverted the left predominance of sham to right predominance. In right 6-OHDA-lesioned rats, the left predominance in sham right rats disappeared. Sham left as well as sham right SHR did not show any bilateral differences. In contrast, while the left lesion demonstrated a highly significant left predominance, the right lesion showed a slight but significant right predominance. A significant negative correlation between enkephalinase activity of the right mPFC and blood pressure and heart rate was observed only in left-lesioned SHR. Our results demonstrate that unilateral nigrostriatal injections of 6-OHDA influence the bilateral distribution of enkephalinase activity depending on both the side of the lesion and the strain analyzed. These results support the hypothesis that DA pathways may interact asymmetrically with enkephalins in the mPFC and that enkephalinase activity may play a role in the regulatory mechanisms underlying this interaction., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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39. [Brain asymmetry and dopamine: beyond motor implications in Parkinson's disease and experimental hemiparkinsonism].

Author

Segarra AB, Banegas I, Prieto I, and Ramirez-Sanchez M

Subjects
Brain pathology, Humans, Brain anatomy & histology, Dopamine physiology, Parkinson Disease physiopathology
Abstract

Introduction: Brain asymmetry could be defined as the existence of functional, anatomic or neurochemical differences between both hemispheres. It is a dynamic phenomenon, regulated by endogenous and exogenous factors. Its functional significance is poorly clarified and is only partially understood in very specific cases such as the relationship between the lateralized brain content of dopamine and its motor effects which is specially patent in Parkinson's disease., Development: The asymmetric brain content of dopamine not only displays lateralized motor effects but also behavioral and autonomic asymmetric consequences. In fact, Parkinson's disease is characterized not only by unilateral motor symptoms that arise at the early stages, but has other non-motor symptoms such as autonomic or cognitive alterations that are also revealed asymmetrically., Conclusions: Brain asymmetry has been underestimated when analyzing the pathogeny of brain diseases and it has been partially studied only in some specific cases, such as Parkinson's disease. However, in order to appropriately understand some brain diseases such as Parkinson's disease, the need to consider this phenomenon has been highlighted.

Published
2016

40. Tissue distribution of CysAP activity and its relationship to blood pressure and water balance.

Author

Prieto I, Villarejo AB, Segarra AB, Wangensteen R, Banegas I, de Gasparo M, Vanderheyden P, Zorad S, Vives F, and Ramírez-Sánchez M

Subjects
Animals, Antihypertensive Agents pharmacology, Blood Pressure drug effects, Captopril pharmacology, Male, Organ Specificity drug effects, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Water-Electrolyte Balance drug effects, Blood Pressure physiology, Cystinyl Aminopeptidase metabolism, Hippocampus enzymology, Kidney Medulla enzymology, Water-Electrolyte Balance physiology
Abstract

Aims: To better understand the functional role of soluble (Sol) and membrane-bound (MB) cystinyl-aminopeptidase (CysAP) activities, we studied differentially their organ distribution in adult male Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR)with or without treatment with captopril.We searched for a possible tissue-specific association of CysAP with water balance and blood pressure., Main Methods: We used twenty WKY rats distributed in ten controls and ten captopril-treated, and sixteen SHR divided in eight controls and eight captopril-treated. Captopril (100 mg/kg/day) was administered in drinking water for 4 weeks. Systolic blood pressure, water intake and diuresis were measured individually. CysAP was assayed fluorometrically using L-cystine-di-β-naphthylamide as substrate., Key Findings: Sol or MB activities were generally higher in SHR compared to WKY notably in hypothalamus and kidney than in the other tissues. Captopril mainly decreased CysAP in SHR whereas it increased in WKY. The distribution of Sol CysAP was more homogeneous among tissues ofWKY than SHR. In contrast, the distribution of MB CysAP was more heterogeneous than Sol CysAP in both WKY and SHR. This suggests that MB CysAP activity acts in a more tissue-specific manner than Sol CysAP. The majority of the significant correlations between tissue activities and the measured physiological parameters were observed mostly in renal medulla and hypothalamus., Significance: Sol and MB CysAP activities, acting separately or in concert and mainly in renal medulla, regulate the function of their susceptible endogenous substrates, and may participate meaningfully in the control of blood pressure and fluid balance.

Published
2015
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41. Interaction of neuropeptidase activities in cortico-limbic regions after acute restraint stress.

Author

Hernández J, Prieto I, Segarra AB, de Gasparo M, Wangensteen R, Villarejo AB, Banegas I, Vives F, Cobo J, and Ramírez-Sánchez M

Subjects
Aminopeptidases analysis, Animals, Anti-Anxiety Agents metabolism, Enkephalins metabolism, Male, Neural Pathways enzymology, Oxytocin metabolism, Rats, Rats, Wistar, Restraint, Physical, Vasopressins metabolism, Aminopeptidases metabolism, Amygdala enzymology, Hippocampus enzymology, Prefrontal Cortex enzymology, Stress, Psychological enzymology
Abstract

Brain enkephalin, vasopressin and oxytocin are anxiolytic agents involved in the stress response. Acute restraint stress influences certain neuropeptidase activities, such as some enkephalin-degrading peptidases and vasopressinase/oxytocinase, in the medial prefrontal cortex (mPFC), amygdala (AM) or hippocampus (HC), which are involved in this response. Because these regions form a unified circuit and cooperate in their response to stress, it is important to analyze the profile of the regional distribution of these activities as well as their inter-regional model of interaction in this circuit. Regarding the regional study, although most activities showed a marked predominance of the AM over the HC and mPFC, both in control and stressed animals, enkephalin-degrading activity, assayed as membrane-bound alanyl aminopeptidase activity, showed a change after stress, increasing in the HC and decreasing in the AM. The correlational study in controls indicated essentially a positive interaction between the mPFC and AM. In marked contrast, there was a highly significant change in the functional status of this circuit after stress, showing mainly a positive correlation between the mPFC and HC and between the AM and HC. The existence of correlations does not demonstrate a direct relationship between regions. However, reasons for such strong associations after restraint stress should be examined. The present study may indicate a connection between neuropeptidase activities and their corresponding neuropeptidergic substrates due to significant changes in the functional status of the cortico-limbic circuit after restraint stress., (Copyright © 2015 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2015
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42. The pro-oxidant buthionine sulfoximine (BSO) reduces tumor growth of implanted Lewis lung carcinoma in mice associated with increased protein carbonyl, tubulin abundance, and aminopeptidase activity.

Author

Rodríguez-Gómez I, Carmona-Cortés J, Wangensteen R, Vargas-Tendero P, Banegas I, Quesada A, García-Lora AM, and Vargas F

Subjects
Animals, Carcinoma, Lewis Lung metabolism, Carcinoma, Lewis Lung pathology, Cells, Cultured, Male, Mice, Mice, Inbred CBA, Oxidative Stress, Thyroxine analogs & derivatives, Thyroxine pharmacology, Aminopeptidases metabolism, Buthionine Sulfoximine pharmacology, Carcinoma, Lewis Lung drug therapy, Protein Carbonylation, Tubulin metabolism
Abstract

This study evaluated the effects of the pro-oxidant buthionine sulfoximine (BSO) and of the interaction between BSO and TETRAC, an antagonist of αvß3 integrin, on tumor development and aminopeptidase (AP) activity in a murine model of implanted Lewis's carcinoma. Male CBA-C57 mice were untreated (controls) or treated with BSO (222 mg/100 mL in drinking water), TETRAC (10 mg/kg/day, i.p.), or BSO + TETRAC. BSO for 28 days and TETRAC were given for the last 20 days. Mice were subcutaneously inoculated with 1 × 10(6) Lewis carcinoma 3LL cells into the dorsum. Study variables were tumor weight (TW); Hb, as index of tumor-mediated angiogenesis; vascular endothelial growth factor (VEGF) protein abundance; protein carbonyl content; α-tubulin abundance; and GluAp, AlaAp, and AspAp activities. BSO produced a major decrease in TW (203 ± 18 mg) with respect to controls (365 ± 26) and a reduction in Hb content. The TETRAC group also showed marked reductions in TW (129 ± 15) and Hb concentration associated with a reduced VEGF content. The BSO + TETRAC group showed a major TW reduction (125 ± 13); although, the difference with the TETRAC group was not significant. BSO treatment increased protein carbonyl and tubulin abundance in comparison to controls. The activity of all APs was increased in the three experimental groups and was strongly and negatively correlated with TW. In conclusion, administration of BSO reduced the TW, which inversely correlated with protein carbonyl content, suggesting a loss of microtubule polymerization. The finding of a negative correlation between TW and AP activity opens up new perspectives for the study of APs as tumor growth modulators.

Published
2014
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43. Effect of thyroid hormone-nitric oxide interaction on tumor growth, angiogenesis, and aminopeptidase activity in mice.

Author

Carmona-Cortés J, Rodríguez-Gómez I, Wangensteen R, Banegas I, García-Lora ÁM, Quesada A, Osuna A, and Vargas F

Subjects
Animals, Carcinoma, Lewis Lung blood supply, Carcinoma, Lewis Lung enzymology, Cell Proliferation, Guanidines pharmacology, Hemoglobins analysis, Male, Mice, Mice, Inbred CBA, NG-Nitroarginine Methyl Ester pharmacology, Nitric Oxide Synthase Type II analysis, Thyroxine analogs & derivatives, Thyroxine pharmacology, Aminopeptidases metabolism, Carcinoma, Lewis Lung pathology, Nitric Oxide physiology, Thyroid Hormones physiology
Abstract

This study evaluated the effects of thyroid hormone-NO interaction on tumor development, vascularization, vascular endothelial growth factor (VEGF), and aminopeptidase (AP) activity in a murine model of implanted Lewis's carcinoma. Experiments were performed in male CBA-C57 mice. Animals were untreated (controls) or treated with: T4, the antithyroid drug methimazole, the NO inhibitor L-NAME, T4+L-NAME, methimazole+NAME, the αvß3 integrin antagonist tetrac, T4+tetrac, the iNOS inhibitor aminoguanidine (AG), and T4 + AG; all treatments were for 6 weeks except for tetrac, administered for the last 11 days. Mice were subcutaneously inoculated with 1 × 10(6) exponentially growing Lewis carcinoma 3LL cells into the dorsum. Study variables 9 days later were tumor weight (TW), Hb content, an index of tumor vascularization, VEGF, and AP activity. T4 produced parallel increases in TW and angiogenesis. L-NAME reduced TW and angiogenesis in control, hyperthyroid, and hypothyroid mice, whereas AG had no effect on these variables. Tetrac arrested TW in normal and T4-treated mice but did not decrease angiogenesis in T4-treated animals. Negative correlations were found between TW and AP activity in tumors from control hyper- and hypothyroid groups and an inverse relationship was observed between TW and AP activities in tetrac-treated mice. T4 enhances TW and angiogenesis, in which NO participates, but requires activation of integrin αvß3 to promote carcinogenesis. NO blockade reduces TW, regardless of the thyroid status. Thyroid hormone negatively modulates AP activity in the tumor. Accordingly, blockade of the membrane TH receptor αvß3 integrin reduces TW associated with an increase in AP activity.

Published
2014
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44. Brain, heart and kidney correlate for the control of blood pressure and water balance: role of angiotensinases.

Author

Prieto I, Villarejo AB, Segarra AB, Banegas I, Wangensteen R, Martinez-Cañamero M, de Gasparo M, Vives F, and Ramírez-Sánchez M

Subjects
Animals, Antihypertensive Agents pharmacology, Enzyme Inhibitors pharmacology, Heart Ventricles drug effects, Hypothalamus drug effects, Kidney drug effects, Male, NG-Nitroarginine Methyl Ester pharmacology, Nitric Oxide metabolism, Propranolol pharmacology, Rats, Inbred SHR, Rats, Inbred WKY, Blood Pressure physiology, Endopeptidases metabolism, Heart Ventricles enzymology, Hypothalamus enzymology, Kidney enzymology, Water-Electrolyte Balance physiology
Abstract

The renin-angiotensin system (RAS) plays a major role in the control of blood pressure (BP) and water balance by coordinating brain, heart and kidney functions, connected with each other by hormonal and neural mechanisms through the autonomic nervous system (ANS). RAS function may be monitored by the study of the enzymes (angiotensinases) involved in the metabolism of its active peptides. In order to study the relationship between the brain-heart-kidney axis and the control of BP and water balance, we analyzed the correlation of angiotensinase activities, assayed as arylamidase activities, between hypothalamus, left ventricle, renal cortex and renal medulla, collected from Wistar-Kyoto and spontaneously hypertensive rats, treated or not treated with L-NAME [N(G)-nitro-L-arginine methyl ester]. This compound not only inhibits the formation of nitric oxide but also disrupts the normal function of the ANS activating the sympathetic nervous system (SNS) to increase BP. In addition, to assess the influence of the SNS, we studied the effect of its blockade by treatment of both strains with propranolol. The present results support the notion that RAS function of the brain-heart-kidney axis, as reflected by the activities of angiotensinases, is reciprocally connected by afferent and efferent mechanisms between these locations, presumably through the ANS. These results reveal new aspects of neuroendocrine regulation possibly involving the ANS., (© 2015 S. Karger AG, Basel.)

Published
2014
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45. Influence of thyroid state on cardiac and renal capillary density and glomerular morphology in rats.

Author

Rodríguez-Gómez I, Banegas I, Wangensteen R, Quesada A, Jiménez R, Gómez-Morales M, O'Valle F, Duarte J, and Vargas F

Subjects
Animals, Coronary Vessels metabolism, Fibroblast Growth Factor 2 blood, Fibroblast Growth Factor 2 metabolism, Glomerular Mesangium blood supply, Glomerular Mesangium metabolism, Glomerular Mesangium pathology, Heart Ventricles metabolism, Heart Ventricles pathology, Hyperthyroidism blood, Hyperthyroidism metabolism, Hyperthyroidism physiopathology, Hypothyroidism blood, Hypothyroidism metabolism, Hypothyroidism physiopathology, Hypoxia-Inducible Factor 1, alpha Subunit blood, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Kidney metabolism, Kidney pathology, Kidney physiopathology, Kidney Glomerulus blood supply, Kidney Glomerulus metabolism, Kidney Glomerulus physiopathology, Male, Microvessels metabolism, Platelet Endothelial Cell Adhesion Molecule-1 metabolism, Podocytes metabolism, Podocytes pathology, Proteinuria etiology, Rats, Rats, Wistar, Ribonuclease, Pancreatic blood, Ribonuclease, Pancreatic metabolism, Thyroid Hormones blood, Thyroid Hormones metabolism, Vascular Endothelial Growth Factor A blood, Vascular Endothelial Growth Factor A metabolism, Coronary Vessels pathology, Hyperthyroidism pathology, Hypothyroidism pathology, Kidney blood supply, Kidney Glomerulus pathology, Microvessels pathology
Abstract

The purpose was to analyse the cardiac and renal capillary density and glomerular morphology resulting from a chronic excess or deficiency of thyroid hormones (THs) in rats. We performed histopathological, morphometrical and immunohistochemical analyses in hypothyroid and hyperthyroid rats to evaluate the density of mesenteric, renal and cardiac vessels at 4 weeks after induction of thyroid disorders. The main angiogenic factors in plasma, heart and kidney were measured as possible mediators of vascular changes. Mesenteric vessel branching was augmented and decreased in hyper- and hypothyroid rats respectively. The numerical density of CD31-positive capillaries was higher in left and right ventricles and in cortical and medullary kidney from both hyper- and hypothyroid rats vs controls. Numbers of podocytes and glomeruli per square millimetre were similar among groups. Glomerular area and percentage mesangium were greater in the hyperthyroid vs control or hypothyroid groups. No morphological renal lesions were observed in any group. Vascularisation of the mesenteric bed is related to TH levels, but an increased capillarity was observed in heart and kidney in both thyroid disorders. This increase may be produced by higher tissue levels of angiogenic factors in hypothyroid rats, whereas haemodynamic factors would predominate in hyperthyroid rats. Our results also indicate that the renal dysfunctions of thyroid disorders are not related to cortical or medullary microvascular rarefaction and that the proteinuria of hyperthyroidism is not secondary to a podocyte deficit. Finally, TH or its analogues may be useful to increase capillarity in renal diseases associated with microvascular rarefaction.

Published
2013
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46. The brain-heart connection: frontal cortex and left ventricle angiotensinase activities in control and captopril-treated hypertensive rats-a bilateral study.

Author

Segarra AB, Prieto I, Banegas I, Villarejo AB, Wangensteen R, de Gasparo M, Vives F, and Ramírez-Sánchez M

Abstract

The model of neurovisceral integration suggests that the frontal cortex (FC) and the cardiovascular function are reciprocally and asymmetrically connected. We analyzed several angiotensinase activities in the heart left ventricle (VT) of control and captopril-treated SHR, and we search for a relationship between these activities and those determined in the left and right FC. Captopril was administered in drinking water for 4 weeks. Samples from the left VT and from the left and right FC were obtained. Soluble and membrane-bound enzymatic activities were measured fluorometrically using arylamides as substrates. The weight of heart significantly decreased after treatment with captopril, mainly, due to the reduction of the left VT weight. In the VT, no differences for soluble activities were observed between control and treated SHR. In contrast, a generalized significant reduction was observed for membrane-bound activities. The most significant correlations between FC and VT were observed in the right FC of the captopril-treated group. The other correlations, right FC versus VT and left FC versus VT in controls and left FC versus VT in the captopril group, were few and low. These results confirm that the connection between FC and cardiovascular system is asymmetrically organized.

Published
2013
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47. Asymmetrical effect of captopril on the angiotensinase activity in frontal cortex and plasma of the spontaneously hypertensive rats: expanding the model of neuroendocrine integration.

Author

Segarra AB, Prieto I, Banegas I, Villarejo AB, Wangensteen R, de Gasparo M, Vives F, and Ramírez-Sánchez M

Subjects
Aminopeptidases metabolism, Animals, Case-Control Studies, Endopeptidases blood, Frontal Lobe drug effects, Functional Laterality drug effects, Rats, Rats, Inbred SHR, Angiotensin-Converting Enzyme Inhibitors pharmacology, Blood Pressure drug effects, Captopril pharmacology, Endopeptidases drug effects, Endopeptidases metabolism, Frontal Lobe metabolism, Renin-Angiotensin System drug effects
Abstract

There is a reciprocal connection between the frontal cortex (FC) and cardiovascular function, and this connection is functionally lateralized. The possible pathophysiological impact of neuroendocrine asymmetries is largely underestimated. Our aim was to examine the activity of soluble (SOL) and membrane-bound (MB) aminopeptidases (APs) involved in the renin-angiotensin system in the peripheral plasma and in the left and right FC, in both untreated (control) and captopril-treated spontaneously hypertensive rats (SHRs). Enzymatic activities were measured fluorometrically using arylamide derivatives as substrates. Captopril reduced systolic blood pressure, but no differences in plasma AP activity were observed between the control and treated SHRs. In contrast, whereas the bilateral pattern (left vs. right differences) of SOL activities did not substantially change in the FC after captopril treatment, the asymmetries observed for MB activities in the FC markedly increased compared with the control group. Moreover, correlations between the AP activities in the plasma and those in the left or right FC were observed. In the control rats, the plasma AP activities correlated significantly with those in the right FC, whereas they correlated with those in the left FC in the captopril-treated group. In both groups (control and captopril), these correlations were negative for the SOL activity but positive for the MB activity. The present results reveal a pattern of bilateral behavior between the nervous and cardiovascular systems. The inverted bilateral behavior after captopril treatment suggests a systematized, lateralized neuroendocrine response representing a regular bilateral behavior that has yet to be analyzed., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2012
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48. Neuropeptidases.

Author

Ramírez M, Prieto I, Banegas I, Segarra AB, and Alba F

Subjects
2-Naphthylamine metabolism, Animals, Brain enzymology, Brain metabolism, Neuropeptides metabolism, Aminopeptidases metabolism
Abstract

The control of neuropeptide function is partially accomplished by aminopeptidases (neuropeptidases), which are the most abundant proteolytic enzymes in brain. Their analysis represents an important and quick tool to reflect the functional status of their endogenous substrates. Here, we describe an improved fluorometric method for the determination of neuropeptidase activities based on the fluorescence produced by β-naphthylamine when released from the artificial substrates aminoacyl-β-naphthylamides (arylamides) under the hydrolytic action of these enzymes.

Published
2011
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49. Lateralized response of oxytocinase activity in the medial prefrontal cortex of a unilateral rat model of Parkinson's disease.

Author

Banegas I, Prieto I, Vives F, Alba F, de Gasparo M, Duran R, Segarra AB, and Ramírez M

Subjects
Animals, Functional Laterality, Male, Oxidopamine, Rats, Rats, Wistar, Cystinyl Aminopeptidase metabolism, Disease Models, Animal, Parkinson Disease enzymology, Prefrontal Cortex enzymology
Abstract

Individuals in the early stage of Parkinson's disease exhibit cognitive impairments as a result of hemisphere damage. The mesocortical dopamine system, particularly the medial prefrontal cortex (mPFC), is implicated in cognitive functions and is characterized by an asymmetric organization. Oxytocinase activity (OX) is also asymmetrically distributed in the mPFC of normal rats and is involved in cognitive functions. OX was measured in the left and right mPFC of rats with left or right hemi-parkinsonism, induced by intrastriatal injections of 6-hydroxydopamine, and compared with sham controls. These results demonstrated that the striking basal left predominance of OX observed in both the left and the right sham controls was radically disrupted in lesioned animals. The bilateral distribution in lesioned animals was altered differently depending on the injured hemisphere. These results may reflect changes in the enzyme substrates and consequently in the functions in which they are involved. These results may account, in part, for the cognitive abnormalities observed in hemi-parkinsonism., (Copyright (c) 2010 Elsevier B.V. All rights reserved.)

Published
2010
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50. Asymmetrical response of aminopeptidase A and nitric oxide in plasma of normotensive and hypertensive rats with experimental hemiparkinsonism.

Author

Banegas I, Prieto I, Vives F, Alba F, de Gasparo M, Duran R, Luna Jde D, Segarra AB, Hermoso F, and Ramírez M

Subjects
Animals, Corpus Striatum drug effects, Male, Oxidopamine administration & dosage, Parkinsonian Disorders chemically induced, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Sodium Chloride pharmacology, Blood Pressure drug effects, Functional Laterality, Glutamyl Aminopeptidase blood, Hypertension blood, Nitric Oxide blood
Abstract

Aminopeptidases and dopamine (DA) exhibit asymmetries in the brain that are reflected in the peripheral response to unilateral striatal DA depletions (experimental hemiparkinsonism). This might be due to asymmetries in the autonomic innervation of the peripheral vessels. Nitric oxide (NO) is released through vascular sympathetic activation. A similar pathway could be postulated for aminopeptidases. Angiotensin II, metabolized by aminopeptidase A (AP A), interacts with NO and dopamine in the control of blood pressure. Moreover, plasma AP A activity and NO concentrations are elevated in hypertensive rats in which sympathetic activity is increased. We hypothesize that plasma AP A activity and NO concentrations may reflect a central asymmetry of the sympathetic activity. Therefore, we analyzed the effect of unilateral depletions of brain DA by injecting 6-hydroxydopamine into the left or right striatum and measuring plasma AP A, NO and systolic blood pressure (SBP) in normotensive and hypertensive rats. Changes in plasma AP A and NO in opposite directions may reflect an asymmetry in the function of the nigrostriatal system. Our results also revealed an inverse correlation between AP A and NO, in normotensive rats lesioned or sham operated in the right side and hypertensive rats lesioned in the left one. We concluded that the observed changes in plasma NO and AP A after left or right striatal DA depletions may be due to asymmetries in the peripheral autonomic innervation of the vessels.

Published
2009
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