Role of water channels in kidney and lung

Li, Yanhong,

January 2009

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2009. / Härtill 4 uppsatser.

Analyse fonctionnelle de deux nouvelles mutations récessives de l’AQP2 impliquées dans le diabète insipide néphrogénique par expression dans les ovocytes de Xenopus laevis

Leduc-Nadeau, Alexandre

06 1900

Le diabète insipide néphrogénique (DIN) autosomal peut être causé par les mutations du gène codant pour le canal à eau aquaporine-2 (AQP2). Un modèle couramment utilisé pour l’étude des protéines membranaires telle l’AQP2 est l’expression hétérologue dans les ovocytes de Xenopus laevis. Malheureusement, les techniques déjà existantes de purification de membranes plasmiques sont soit trop longues, trop difficiles ou demandent trop de matériel, ne permettent pas l’analyse adéquate du ciblage des formes sauvage comme mutantes, un élément crucial de ce type d’étude. Nous avons donc dans un premier temps mis au point une technique rapide et efficace de purification de membranes plasmiques qui combine la digestion partielle de la membrane vitelline, sa polymérisation à la membrane plasmique suivi de centrifugations à basse vitesse pour récolter les membranes purifiées. Nous avons utilisé cette technique dans l’étude de deux nouveaux cas familiaux de patients hétérozygotes possédant les mutations V24A et R187C dans un cas et K228E et R187C dans le second cas. Pour chaque mutation, nous avons analysé autant les éléments de fonctionnalité que les paramètres d’expression des protéines mutantes. Les expériences de perméabilité membranaire démontrent que les ovocytes exprimant AQP2-V24A (Pf = 16.3 ± 3.5 x 10-4 cm/s, 10 ng) et AQP2- K228E (Pf = 19.9 ± 7.0 x 10-4 cm/s, 10 ng) ont des activités similaires à celle exprimant la forme native (Pf = 14.4 ± 5.5 x 10-4 cm/s, 1 ng), tandis que AQP2- R187C (Pf = 2.6 ± 0.6 x 10-4 cm/s, 10 ng) ne semble avoir aucune activité comme ce qui est observé chez les ovocytes non-injectés (Pf = 2.8 ± 1.0 x 10-4 cm/s). Les études de co-expression ont démontré un effet d’additivité lorsque AQP2-V24A et -K228E sont injectées avec la forme native et un effet s’apparentant à la dominance négative lorsque AQP2-R187C est injecté avec la forme native, avec AQP2-V24A ou avec –K228E. Les résultats obtenus par immunobuvardage représente bien ce qui a été démontré précédemment, on remarque la présence des mutations K228E, V24A et la forme sauvage à la membrane plasmique, contrairement à la mutation R187C. Cependant, lorsque les mutations sont exprimées dans des cellules mIMCD-3, il n’y a qu’une faible expression à la membrane de la forme –K228E et une absence totale des formes –V24A et –R187C à la membrane plasmique, contrairement à la forme native. Les résultats de nos études démontrent que tout dépendant du système d’expression les formes –K228E et –V24A peuvent être utiles dans l’étude des problèmes d’adressage à la membrane à l’aide de chaperonne chimique. De plus, la forme –R187C démontre des difficultés d’adressage qui devront être étudiées afin de mieux comprendre la synthèse des formes natives. / The autosomal nephrogenic diabetes insipidus (NDI) is caused by mutations of the gene coding for the water channel aquaporine-2 (AQP2). An oftenly used model for the study of membrane proteins such as AQP2 is the heterogenous expression in Xenopus laevis oocytes. Unfortunately, the existing techniques of plasma membranes purification are either too long, too difficult or require too much material, which does not allow adequate analysis of targeting of the native and mutants forms, which is crucial for this type of study. We developed a fast and effective plasma membrane purification technique which combines partial digestion of the vitellin membrane, its polymerization with the plasma membrane followed by a serie of low speed centrifugations to collect the purified membranes. We used this technique to study of two new family cases of heterozygote patients carrying the V24A and R187C mutations in a case and K228E and R187C in the second case. For each mutation, we analyzed the functionality and the parameters of expression of the mutant proteins. The membrane permeability experiments show that the oocytes expressing AQP2- V24A (Pf = 16.3 ± 3.5 x 10-4 cm/s, 10 ng) and AQP2-K228E (Pf = 19.9 ± 7.0 x 10-4 cm/s, 10 ng) have similar activities to the oocytes expressing the native form (Pf = 14.4 ± 5.5 x 10-4 cm/s, 1 ng), while AQP2-R187C (Pf = 2.6 ± 0.6 x 10-4 cm/s, 10 ng) doesn’t seem to have any activity like the un-injected oocytes (Pf = 2.8 ± 1.0 x 10-4 cm/s). The coexpression studies showed an additive effect when AQP2-V24A and -K228E are injected with the native form and an effect being associated with negative dominance when AQP2-R187C was injected with AQP2-V24A, -K228E and the native form. Western blot results confirmed what was observed in the functionality studies. However, when the mutations were expressed in mIMCD-3 cells, there was a slight expression of the K228E mutation to the plasma membrane and a total absence of the mutations –V24A and R187C at the plasma membrane. The results of our studies showed that depending on the expression system the mutations –K228E and -V24A can be used in targeting studies using chemical chaperones.

Ovocyte

Aquaporine-2

Diabète insipide néphrogénique

mutation

Oocyte

Aquaporin-2

Nephrogenic diabetes insipidus

mutation

Analyse fonctionnelle de deux nouvelles mutations récessives de l’AQP2 impliquées dans le diabète insipide néphrogénique par expression dans les ovocytes de Xenopus laevis

Leduc-Nadeau, Alexandre

06 1900

Le diabète insipide néphrogénique (DIN) autosomal peut être causé par les mutations du gène codant pour le canal à eau aquaporine-2 (AQP2). Un modèle couramment utilisé pour l’étude des protéines membranaires telle l’AQP2 est l’expression hétérologue dans les ovocytes de Xenopus laevis. Malheureusement, les techniques déjà existantes de purification de membranes plasmiques sont soit trop longues, trop difficiles ou demandent trop de matériel, ne permettent pas l’analyse adéquate du ciblage des formes sauvage comme mutantes, un élément crucial de ce type d’étude. Nous avons donc dans un premier temps mis au point une technique rapide et efficace de purification de membranes plasmiques qui combine la digestion partielle de la membrane vitelline, sa polymérisation à la membrane plasmique suivi de centrifugations à basse vitesse pour récolter les membranes purifiées. Nous avons utilisé cette technique dans l’étude de deux nouveaux cas familiaux de patients hétérozygotes possédant les mutations V24A et R187C dans un cas et K228E et R187C dans le second cas. Pour chaque mutation, nous avons analysé autant les éléments de fonctionnalité que les paramètres d’expression des protéines mutantes. Les expériences de perméabilité membranaire démontrent que les ovocytes exprimant AQP2-V24A (Pf = 16.3 ± 3.5 x 10-4 cm/s, 10 ng) et AQP2- K228E (Pf = 19.9 ± 7.0 x 10-4 cm/s, 10 ng) ont des activités similaires à celle exprimant la forme native (Pf = 14.4 ± 5.5 x 10-4 cm/s, 1 ng), tandis que AQP2- R187C (Pf = 2.6 ± 0.6 x 10-4 cm/s, 10 ng) ne semble avoir aucune activité comme ce qui est observé chez les ovocytes non-injectés (Pf = 2.8 ± 1.0 x 10-4 cm/s). Les études de co-expression ont démontré un effet d’additivité lorsque AQP2-V24A et -K228E sont injectées avec la forme native et un effet s’apparentant à la dominance négative lorsque AQP2-R187C est injecté avec la forme native, avec AQP2-V24A ou avec –K228E. Les résultats obtenus par immunobuvardage représente bien ce qui a été démontré précédemment, on remarque la présence des mutations K228E, V24A et la forme sauvage à la membrane plasmique, contrairement à la mutation R187C. Cependant, lorsque les mutations sont exprimées dans des cellules mIMCD-3, il n’y a qu’une faible expression à la membrane de la forme –K228E et une absence totale des formes –V24A et –R187C à la membrane plasmique, contrairement à la forme native. Les résultats de nos études démontrent que tout dépendant du système d’expression les formes –K228E et –V24A peuvent être utiles dans l’étude des problèmes d’adressage à la membrane à l’aide de chaperonne chimique. De plus, la forme –R187C démontre des difficultés d’adressage qui devront être étudiées afin de mieux comprendre la synthèse des formes natives. / The autosomal nephrogenic diabetes insipidus (NDI) is caused by mutations of the gene coding for the water channel aquaporine-2 (AQP2). An oftenly used model for the study of membrane proteins such as AQP2 is the heterogenous expression in Xenopus laevis oocytes. Unfortunately, the existing techniques of plasma membranes purification are either too long, too difficult or require too much material, which does not allow adequate analysis of targeting of the native and mutants forms, which is crucial for this type of study. We developed a fast and effective plasma membrane purification technique which combines partial digestion of the vitellin membrane, its polymerization with the plasma membrane followed by a serie of low speed centrifugations to collect the purified membranes. We used this technique to study of two new family cases of heterozygote patients carrying the V24A and R187C mutations in a case and K228E and R187C in the second case. For each mutation, we analyzed the functionality and the parameters of expression of the mutant proteins. The membrane permeability experiments show that the oocytes expressing AQP2- V24A (Pf = 16.3 ± 3.5 x 10-4 cm/s, 10 ng) and AQP2-K228E (Pf = 19.9 ± 7.0 x 10-4 cm/s, 10 ng) have similar activities to the oocytes expressing the native form (Pf = 14.4 ± 5.5 x 10-4 cm/s, 1 ng), while AQP2-R187C (Pf = 2.6 ± 0.6 x 10-4 cm/s, 10 ng) doesn’t seem to have any activity like the un-injected oocytes (Pf = 2.8 ± 1.0 x 10-4 cm/s). The coexpression studies showed an additive effect when AQP2-V24A and -K228E are injected with the native form and an effect being associated with negative dominance when AQP2-R187C was injected with AQP2-V24A, -K228E and the native form. Western blot results confirmed what was observed in the functionality studies. However, when the mutations were expressed in mIMCD-3 cells, there was a slight expression of the K228E mutation to the plasma membrane and a total absence of the mutations –V24A and R187C at the plasma membrane. The results of our studies showed that depending on the expression system the mutations –K228E and -V24A can be used in targeting studies using chemical chaperones.

Ovocyte

Aquaporine-2

Diabète insipide néphrogénique

mutation

Oocyte

Aquaporin-2

Nephrogenic diabetes insipidus

mutation

Caractérisation biochimique et fonctionnelle du mutant T179N de l’aquaporine-2 humaine

Matar, Jessica

04 1900

L’aquaporine-2 (AQP2) est le canal responsable de la réabsorption finale d’eau au niveau du tubule collecteur du rein. À la base, contenue dans des vésicules internes, l’AQP2 est acheminée à la membrane apicale des cellules principales du tubule collecteur suite à une stimulation par l’hormone antidiurétique (ADH). L’incapacité à accomplir cette fonction entraîne le diabète insipide néphrogénique (DIN), une maladie caractérisée par l’inhabileté du rein à concentrer l’urine, entraînant une production de volumes urinaires élevés. Alors que les mutations récessives génèrent des protéines mal structurées et incapables de former des tétramères, les mutations dominantes sont capables de s’associer à leurs homologues sauvages, engendrant ainsi un DIN même chez les patients hétérozygotes. Ce mémoire présente l’analyse biochimique et fonctionnelle d’une nouvelle mutation naturelle de l’AQP2, la mutation T179N, aussi responsable du DIN. Cette dernière est particulièrement intéressante de par son génotype qui implique un caractère dominant, et sa position extracellulaire habituellement réservée aux mutations récessives. Les études comparatives de T179N à deux modèles de mutation récessive et dominante démontrent, tant en ovocytes de Xenopus laevis qu’en lignée cellulaire mpkCCDc14, le caractère récessif de cette nouvelle mutation. Les tests d’immunobuvardage de lysats d’ovocytes en membranes totales et membranes plasmiques purifiées ont révélé que seule la forme sauvage atteint la membrane plasmique alors que le mutant T179N est séquestré dans la cellule. En accord avec ce résultat, les analyses de perméabilité fonctionnelle démontrent aussi une absence d’activité pour T179N. En cellule mpkCCDc14, le mutant T179N exprimé seul n’atteint pas la membrane plasmique suite à l’action de la forskoline, contrairement à la forme sauvage. Cependant, ce mutant peut s’associer à son homologue sauvage en coexpression tant dans les ovocytes qu’en lignée mpkCCDc14 sans toutefois engendrer l’effet typique de dominance négative. En fait, dans ce contexte de coexpression, on remarque une augmentation de la Pf de 83±7 % et une récupération d’adressage à la membrane plasmique en cellule (immunofluorescence). En conclusion, T179N serait un mutant récessif fonctionnellement récupérable lorsqu’en présence de l’AQP2 sauvage. / Aquaporin-2 (AQP2) is the channel responsible for the final reabsorption of water in the collecting duct of the kidney. Basically, contained in internal vesicles, the AQP2 is delivered to the apical membrane of the principal cells of the collecting tubule after stimulation by the antidiuretic hormone (ADH). The failure to perform this function causes nephrogenic diabetes insipidus (NDI); a disease characterized by the inability of the kidney to concentrate urine and induces the production of high urinary volumes. While recessive mutations generate poorly structured proteins unable to form tetramers, dominant mutations are capable of associating with their wild counterparts, thus generating a NDI even in heterozygous patients. This paper presents the biochemical and functional analysis of T179N, a new NDI-causing mutation of the human AQP2. The mutant is particularly interesting because of its dominant genotype, despite its extracellular position usually restricted to recessive mutations. Here, we compare T179N against archetypal recessive and dominant mutations using both Xenopus laevis oocytes and in mpkCCDc14 cell model, and show the recessive nature of the mutation. The immunoblot tests on oocytes lysates in purified total and plasma membranes revealed that only the wild type protein reaches the plasma membrane while the T179N mutant is sequestered within cellular stores. Accordingly, functional analyzes indicate that T179N is inactive. In mpkCCDc14 cells, T179N expressed alone does not reach the plasma membrane in response to forskolin stimulation, unlike the wild-type. However, T179N does show the capacity to associate with its wild-type counterpart in both oocytes and in mpkCCDc14 cells, although without displaying the typical dominant negative effect. In fact, when coexpressed along wild-type, T179N gains back the functionality, with a Pf increase of 83±7 % and adequate plasma membrane targeting in cells (immunofluorescence). In conclusion, the mutant T179N is a mild recessive mutation that is susceptible to functional recovery when in presence of wild type AQP2.

Aquaporine 2

Mutation

Diabète insipide néphrogénique

Expression hétérologue

Aquaporin 2

Nephrogenic diabetes insipidus

Heterologous expression

Estudo da ação do inibidor de fosfodiesterase (sildenafil) no diabetes insipidus induzido pelo lítio / Role of phosphodiesterase inhibitor(sildenafil) in lithium-induced diabetes insipidus

Sanches, Talita Rojas Cunha

26 November 2008

Os pacientes que usam lítio (Li) para tratamento do transtorno bipolar freqüentemente apresentam poliúria e deficiência de concentração urinária, sintomas do Diabetes Insipidus nefrogênico (DIN). Animais tratados com Li apresentam baixos níveis de produção de adenosina monofosfato cíclico (AMPc) em resposta ao hormônio antidiurético (HAD). O Sildenafil (Sil), um inibidor da fosfodiesterase 5 (PDE5), eleva os níveis intracelulares de guanosina monofosfato cíclico (GMPc), levando a inserção de aquaporina 2 (AQP2) na membrana plasmática das células do ducto coletor. Portanto, inibidores de PDE podem promover a inserção de AQP2 na membrana plasmática mesmo sem a ativação do receptor de HAD, indicando a participação de uma via alternativa mediada pelo GMPc. Nós investigamos o efeito do Sil na expressão renal das proteínas de membrana AQP2, UT-A1, NKCC2, NHE3, P-ENaC em ratos com DIN induzido pelo Li. Ratos Wistar foram divididos nos seguintes grupos: grupo controle, recebendo dieta alimentar normal durante quatro semanas; grupo Li, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas; grupo Li + Sil, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas e 200 mg por quilo de dieta de Sil a partir da segunda semana; grupo Sil, recebendo dieta alimentar normal durante a primeira semana e a partir da segunda semana recebendo dieta normal com 200 mg de Sil por quilo de dieta. Os animais do grupo Li desenvolveram poliúria, diminuição da osmolalidade urinária e diminuição da expressão da AQP2. No grupo Li+Sil, o Sil foi capaz de reverter parcialmente a poliúria, diminuir o clearance de água livre, aumentar a osmolalidade urinária e aumentar a expressão da AQP2. A expressão de UTA1 foi completamente normalizada com o tratamento com Sil. A expressão das proteínas NKCC2 e NHE3 apresentaram-se aumentadas no grupo tratado com Li, e o Sil não foi capaz de reverter tal alteração. Além disso, o tratamento com Sil reverteu completamente o aumento da resistência vascular renal. Assim, concluímos que o tratamento com Sil em ratos com DIN melhora a poliúria, aumenta a smolalidade urinária e diminui o clearance de água livre pelo aumento da expressão de AQP2 e UT-A1. O tratamento com Sil pode ser benéfico para pacientes que sofrem com DIN induzida pelo Li. / Patients taking lithium to treat bipolar disorder often present polyuria and urinary concentrating defect. In addition, lithium-treated animals present lower cyclic adenosine monophosphate production in response to vasopressin. Sildenafil (Sil), a phosphodiesterase 5 (PDE5) inhibitor, elevates intracellular cyclic guanosine monophosphate (cGMP) levels, leading to plasma membrane accumulation of aquaporin 2 (AQP2). Therefore, PDE inhibitors might induce AQP2 membrane insertion even without vasopressin receptor activation by activating a parallel cGMP-mediated signal transduction pathway. We investigated the effect of sildenafil on renal expression of AQP2, UT-A1, sodium/hydrogen exchanger (NHE3), type 1 bumetanide-sensitive Na-K-2Cl cotransporter (NKCC2), and the epithelial sodium channel alpha subunit (P-ENaC). Wistar rats received lithium (40 mmol/kg food) or not for 4 weeks (Li or control), some rats also receiving sildenafil (200 mg/kg food) in weeks 2-4, with or without lithium (Li+Sil or Sil). In Li+Sil rats, urine output was markedly lower, as was water free clearance, whereas urine osmolality was higher. Semiquantitative immunoblotting revealed the following: AQP2 expression was partially normalized; UT-A1 expression was completely normalized; expression of NKCC2 and NHE3 was significantly higher in Li rats (although not significantly different between Li+Sil rats and Li rats); and P-ENaC protein expression was unaltered in all groups. Sildenafil treatment completely reversed the lithium-induced increase in renal vascular resistance. In conclusion, sildenafil treatment of lithium-induced nephrogenic diabetes insipidus (NDI) improves polyuria, increases urinary osmolality, and decreases free water clearance via upregulation of renal AQP2 and UT-A1. Sildenafil treatment could be beneficial in patients with lithium-induced NDI.

Aquaporin 2

Aquaporina 2

Cyclic nucleotides

Diabetes insípido nefrogênico

Diabetes insipidus nephrogenic

Inibidores de fodiesterase

Lithium/adverse effects

Lítio/efeitos adversos

Nucleotídeos cíclicos

Phosphodiesterase inhibitors

Comparação dos efeitos da ressuscitação com Ringer lactato ou terlipressina sobre função renal em modelo experimental de choque hemorrágico / Comparison of the effects of lactated Ringer\'s or terlipressin resuscitation on renal function in an experimental model of hemorrhagic shock

Castro, Leticia Urbano Cardoso de

18 September 2015

As estratégias terapêuticas empregadas na ressuscitação do choque hemorrágico (CH) são capazes de evitar a morte, mas seus efeitos colaterais podem causar muitas alterações orgânicas, inclusive nos rins. Sabemos que a reposição volêmica feita com solução cristaloide restaura a hemodinâmica, diminui a mortalidade, mas pode levar a edema de órgãos e tecidos, entre outras alterações. Sendo assim, o objetivo do atual estudo foi comparar os efeitos da ressuscitação com Ringer lactato (RL) ou terlipressina (TLP) na função renal em modelo experimental de CH. Com este intuito, foi induzido o CH em suínos de 20-30 kg, por meio de sangramento pressão-controlada, até a obtenção e manutenção da pressão arterial média (PAM) em 40mmHg por 30 minutos. Os animais foram divididos em quatro grupos, sendo eles, o grupo Sham (feito apenas o procedimento anestésico), grupo Choque (indução de choque hemorrágico por 30 minutos) e os de instituição de estratégias de ressuscitação: grupo RL (indução de choque hemorrágico, e administração de RL de três vezes o volume de sangue retirado) e o grupo TLP (indução do choque e administração em bolus de 2 mg de TLP). Os parâmetros hemodinâmicos, de função renal e tubular foram avaliados nos momentos: basal; imediatamente após o CH; 30, 60, 90 e 120 minutos após tratamento. Ao final do estudo, os animais foram eutanasiados aos 60 ou aos 120 minutos. Foram coletadas amostras de tecido renal para avaliação de histologia e de western blott. Observamos uma melhora na microcirculação dos animais tratados com RL; entretanto, houve uma normalização da expressão da proteína NKCC2 e aquaporina 2 no grupo TLP. Observamos que o escore de lesão renal foi igual nos dois grupos de intervenção, mas a expressão de Bax estava mais diminuída no grupo TLP. Concluímos que a TLP mostrou ser uma estratégia tão eficaz quanto o RL no resgate do choque hemorrágico, com um provável potencial de maior proteção renal / Therapeutic strategies employed hemorrhagic shock (HS) resuscitation are able to prevent death, but its side effects can cause many organic dysfunction, including injury to the kidneys. It has been know that volume replacement with crystalloid solution can restore the hemodynamic status and decreases mortality; however, it can lead to organs and tissues edema, among other changes. Thus, the goal of this study was to compare the effects of resuscitation with lactated Ringer\'s (RL) or terlipressin (TLP) on renal function in an experimental model of HS. For this purpose, HS was induced in 20-30 kg swine, with pressure-controlled bleeding, to obtain and maintain the mean arterial pressure (MAP) of 40 mmHg for 30 minutes. The animals were divided into four groups, namely, the Sham group (made only the anesthetic procedure), Shock group (induction of hemorrhagic shock for 30 minutes) and the institution of resuscitation strategies: RL group (induction of hemorrhagic shock, and RL administration of three times the volume of removed blood) and TLP group (induction of shock and administration in bolus of 2 mg TLP). Hemodynamic parameters, renal and tubular function were evaluated at baseline; immediately after the HS; 30, 60, 90 and 120 minutes after treatment. At the end of the study, animals were euthanized after 60 or 120 minutes. Kidney tissue samples were collected for evaluation of histology and western blotting. We observed an improvement in microcirculation of animals treated with RL; however, there was a normalization of NKCC2 and aquaporin 2 protein expression in the TLP group. We observe that the kidney injury score was similar in both intervention groups, but Bax protein expression was more reduced than in the TLP group. We conclude that the TLP proved to be an effective strategy as RL in the rescue of hemorrhagic shock, with a likely potential for protect renal function

Acute kidney injury

Apoptose

Apoptosis

Aquaporin 2

Aquaporina 2

Choque hemorrágico

Lesão renal aguda

Ringer's lactated

Ringer's lactato

Shock hemorrhagic

Terlipressin

Terlipressina

Comparação dos efeitos da ressuscitação com Ringer lactato ou terlipressina sobre função renal em modelo experimental de choque hemorrágico / Comparison of the effects of lactated Ringer\'s or terlipressin resuscitation on renal function in an experimental model of hemorrhagic shock

Leticia Urbano Cardoso de Castro

18 September 2015

As estratégias terapêuticas empregadas na ressuscitação do choque hemorrágico (CH) são capazes de evitar a morte, mas seus efeitos colaterais podem causar muitas alterações orgânicas, inclusive nos rins. Sabemos que a reposição volêmica feita com solução cristaloide restaura a hemodinâmica, diminui a mortalidade, mas pode levar a edema de órgãos e tecidos, entre outras alterações. Sendo assim, o objetivo do atual estudo foi comparar os efeitos da ressuscitação com Ringer lactato (RL) ou terlipressina (TLP) na função renal em modelo experimental de CH. Com este intuito, foi induzido o CH em suínos de 20-30 kg, por meio de sangramento pressão-controlada, até a obtenção e manutenção da pressão arterial média (PAM) em 40mmHg por 30 minutos. Os animais foram divididos em quatro grupos, sendo eles, o grupo Sham (feito apenas o procedimento anestésico), grupo Choque (indução de choque hemorrágico por 30 minutos) e os de instituição de estratégias de ressuscitação: grupo RL (indução de choque hemorrágico, e administração de RL de três vezes o volume de sangue retirado) e o grupo TLP (indução do choque e administração em bolus de 2 mg de TLP). Os parâmetros hemodinâmicos, de função renal e tubular foram avaliados nos momentos: basal; imediatamente após o CH; 30, 60, 90 e 120 minutos após tratamento. Ao final do estudo, os animais foram eutanasiados aos 60 ou aos 120 minutos. Foram coletadas amostras de tecido renal para avaliação de histologia e de western blott. Observamos uma melhora na microcirculação dos animais tratados com RL; entretanto, houve uma normalização da expressão da proteína NKCC2 e aquaporina 2 no grupo TLP. Observamos que o escore de lesão renal foi igual nos dois grupos de intervenção, mas a expressão de Bax estava mais diminuída no grupo TLP. Concluímos que a TLP mostrou ser uma estratégia tão eficaz quanto o RL no resgate do choque hemorrágico, com um provável potencial de maior proteção renal / Therapeutic strategies employed hemorrhagic shock (HS) resuscitation are able to prevent death, but its side effects can cause many organic dysfunction, including injury to the kidneys. It has been know that volume replacement with crystalloid solution can restore the hemodynamic status and decreases mortality; however, it can lead to organs and tissues edema, among other changes. Thus, the goal of this study was to compare the effects of resuscitation with lactated Ringer\'s (RL) or terlipressin (TLP) on renal function in an experimental model of HS. For this purpose, HS was induced in 20-30 kg swine, with pressure-controlled bleeding, to obtain and maintain the mean arterial pressure (MAP) of 40 mmHg for 30 minutes. The animals were divided into four groups, namely, the Sham group (made only the anesthetic procedure), Shock group (induction of hemorrhagic shock for 30 minutes) and the institution of resuscitation strategies: RL group (induction of hemorrhagic shock, and RL administration of three times the volume of removed blood) and TLP group (induction of shock and administration in bolus of 2 mg TLP). Hemodynamic parameters, renal and tubular function were evaluated at baseline; immediately after the HS; 30, 60, 90 and 120 minutes after treatment. At the end of the study, animals were euthanized after 60 or 120 minutes. Kidney tissue samples were collected for evaluation of histology and western blotting. We observed an improvement in microcirculation of animals treated with RL; however, there was a normalization of NKCC2 and aquaporin 2 protein expression in the TLP group. We observe that the kidney injury score was similar in both intervention groups, but Bax protein expression was more reduced than in the TLP group. We conclude that the TLP proved to be an effective strategy as RL in the rescue of hemorrhagic shock, with a likely potential for protect renal function

Apoptose

Aquaporina 2

Choque hemorrágico

Lesão renal aguda

Ringer's lactato

Terlipressina

Acute kidney injury

Apoptosis

Aquaporin 2

Ringer's lactated

Shock hemorrhagic

Terlipressin

Estudo da ação do inibidor de fosfodiesterase (sildenafil) no diabetes insipidus induzido pelo lítio / Role of phosphodiesterase inhibitor(sildenafil) in lithium-induced diabetes insipidus

Talita Rojas Cunha Sanches

26 November 2008

Os pacientes que usam lítio (Li) para tratamento do transtorno bipolar freqüentemente apresentam poliúria e deficiência de concentração urinária, sintomas do Diabetes Insipidus nefrogênico (DIN). Animais tratados com Li apresentam baixos níveis de produção de adenosina monofosfato cíclico (AMPc) em resposta ao hormônio antidiurético (HAD). O Sildenafil (Sil), um inibidor da fosfodiesterase 5 (PDE5), eleva os níveis intracelulares de guanosina monofosfato cíclico (GMPc), levando a inserção de aquaporina 2 (AQP2) na membrana plasmática das células do ducto coletor. Portanto, inibidores de PDE podem promover a inserção de AQP2 na membrana plasmática mesmo sem a ativação do receptor de HAD, indicando a participação de uma via alternativa mediada pelo GMPc. Nós investigamos o efeito do Sil na expressão renal das proteínas de membrana AQP2, UT-A1, NKCC2, NHE3, P-ENaC em ratos com DIN induzido pelo Li. Ratos Wistar foram divididos nos seguintes grupos: grupo controle, recebendo dieta alimentar normal durante quatro semanas; grupo Li, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas; grupo Li + Sil, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas e 200 mg por quilo de dieta de Sil a partir da segunda semana; grupo Sil, recebendo dieta alimentar normal durante a primeira semana e a partir da segunda semana recebendo dieta normal com 200 mg de Sil por quilo de dieta. Os animais do grupo Li desenvolveram poliúria, diminuição da osmolalidade urinária e diminuição da expressão da AQP2. No grupo Li+Sil, o Sil foi capaz de reverter parcialmente a poliúria, diminuir o clearance de água livre, aumentar a osmolalidade urinária e aumentar a expressão da AQP2. A expressão de UTA1 foi completamente normalizada com o tratamento com Sil. A expressão das proteínas NKCC2 e NHE3 apresentaram-se aumentadas no grupo tratado com Li, e o Sil não foi capaz de reverter tal alteração. Além disso, o tratamento com Sil reverteu completamente o aumento da resistência vascular renal. Assim, concluímos que o tratamento com Sil em ratos com DIN melhora a poliúria, aumenta a smolalidade urinária e diminui o clearance de água livre pelo aumento da expressão de AQP2 e UT-A1. O tratamento com Sil pode ser benéfico para pacientes que sofrem com DIN induzida pelo Li. / Patients taking lithium to treat bipolar disorder often present polyuria and urinary concentrating defect. In addition, lithium-treated animals present lower cyclic adenosine monophosphate production in response to vasopressin. Sildenafil (Sil), a phosphodiesterase 5 (PDE5) inhibitor, elevates intracellular cyclic guanosine monophosphate (cGMP) levels, leading to plasma membrane accumulation of aquaporin 2 (AQP2). Therefore, PDE inhibitors might induce AQP2 membrane insertion even without vasopressin receptor activation by activating a parallel cGMP-mediated signal transduction pathway. We investigated the effect of sildenafil on renal expression of AQP2, UT-A1, sodium/hydrogen exchanger (NHE3), type 1 bumetanide-sensitive Na-K-2Cl cotransporter (NKCC2), and the epithelial sodium channel alpha subunit (P-ENaC). Wistar rats received lithium (40 mmol/kg food) or not for 4 weeks (Li or control), some rats also receiving sildenafil (200 mg/kg food) in weeks 2-4, with or without lithium (Li+Sil or Sil). In Li+Sil rats, urine output was markedly lower, as was water free clearance, whereas urine osmolality was higher. Semiquantitative immunoblotting revealed the following: AQP2 expression was partially normalized; UT-A1 expression was completely normalized; expression of NKCC2 and NHE3 was significantly higher in Li rats (although not significantly different between Li+Sil rats and Li rats); and P-ENaC protein expression was unaltered in all groups. Sildenafil treatment completely reversed the lithium-induced increase in renal vascular resistance. In conclusion, sildenafil treatment of lithium-induced nephrogenic diabetes insipidus (NDI) improves polyuria, increases urinary osmolality, and decreases free water clearance via upregulation of renal AQP2 and UT-A1. Sildenafil treatment could be beneficial in patients with lithium-induced NDI.

Aquaporina 2

Diabetes insípido nefrogênico

Inibidores de fodiesterase

Lítio/efeitos adversos

Nucleotídeos cíclicos

Aquaporin 2

Cyclic nucleotides

Diabetes insipidus nephrogenic

Lithium/adverse effects

Phosphodiesterase inhibitors

Vias intracelulares da ação do Sildenafil no diabetes insipidus induzido pelo lítio / Sildenafil action in lithium-induced NDI: intracellular pathway

Sanches, Talita Rojas Cunha

13 June 2012

Os pacientes que usam lítio (Li) para tratamento do transtorno bipolar frequentemente apresentam poliúria e deficiência de concentração urinária, sintomas do Diabetes Insipidus Nefrogênico (DIN). Animais tratados com Li apresentam baixos níveis de produção de adenosina monofosfato cíclico (AMPc) em resposta ao hormônio antidiurético (HAD). O Sildenafil (Sil), um inibidor da fosfodiesterase 5 (PDE5), eleva os níveis intracelulares de guanosina monofosfato cíclico (GMPc), levando a inserção de aquaporina 2 (AQP2) na membrana plasmática das células do ducto coletor. Portanto, inibidores de PDE podem promover a inserção de AQP2 na membrana plasmática mesmo sem a ativação do receptor de HAD, indicando a participação de uma via alternativa mediada pelo GMPc. Nós investigamos as vias de ação do Sil no tratamento da DIN induzida pelo Li. Ratos Wistar foram divididos nos seguintes grupos: grupo controle, recebendo dieta alimentar normal durante quatro semanas; grupo Li, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas; grupo Li + Sil, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas e 200 mg por quilo de dieta de Sil a partir da segunda semana; grupo Sil, recebendo dieta alimentar normal durante a primeira semana e a partir da segunda semana recebendo dieta normal com 200 mg de Sil por quilo de dieta. Os animais do grupo Li desenvolveram poliúria, diminuição da osmolalidade urinária e diminuição da expressão da AQP2 tanto na fração citoplasmática como de membrana celular e o Sil reverteu essas alterações. Demonstramos ainda que a concentração de GMPc intracelular estava aumentada nos túbulos papilares tratados com Sil. Observamos que a provável via de fosforilação da AQP2 induzida pelo GMPc é pela PKA. Além disso, o tratamento com Sil aumenta a expressão de pCreb, fator de transcrição para ativação do gene da AQP2. Observamos ainda que o Li diminui a expressão de eNOS e o tratamento com Sil normaliza essa diminuição. Assim, concluímos que o tratamento com Sil em ratos com DIN melhora a poliúria aumentando a produção e a inserção de AQP2. O tratamento com Sil pode ser benéfico para pacientes que sofrem com DIN induzido pelo Li / Patients taking lithium to treat bipolar disorder often present polyuria and urinary concentrating defect. In addition, lithium-treated animals present lower cyclic adenosine monophosphate production in response to vasopressin. Sildenafil (Sil), a phosphodiesterase 5 (PDE5) inhibitor, elevates intracellular cyclic guanosine monophosphate (cGMP) levels, leading to plasma membrane accumulation of aquaporin 2 (AQP2). Therefore, PDE inhibitors might induce AQP2 membrane insertion even without vasopressin receptor activation by activating a parallel cGMP-mediated signal transduction pathway. We investigated Sil pathways of action in rats with lithium-induced nephrogenic Diabetes Insipidus (NDI). Wistar rats received lithium (40 mmol/kg food) or not for 4 weeks (Li or control), some rats also receiving sildenafil (200 mg/kg food) in weeks 2-4, with or without lithium (Li+Sil orSil). Animals in Li group developed polyuria, decreased urinary osmolality and decreased expression of AQP2 in both the cytoplasmic fraction and the cell membrane and Sil reversed these changes. We also demonstrated that intracellular cGMP concentration was increased in papillary tubules treated with Sil. We found that PKA may be involved in the pathway of cGMP induced AQP2 phosphorylation. In addition, Sil treatment increases Creb phosphorylation. Creb phosphorylation, acts as AQP2 gene transcription factor. We also observed that Li decreases eNOS expression and treatment with Sil normalizes this alteration. We conclude that Sil treatment improves polyuria by increasing production and insertion of AQP2. Sil treatment may be beneficial to patients suffering from induced DIN Li

Aquaporin 2

Aquaporina 2

Cyclic nucleotides

Diabetes insípido nefrogênico

Inibidores de fosfodiesterase

Lithium/adverse effects

Lítio/efeitos adversos

Nephrogenic diabetes insipidus

Nucleotídeos cíclicos

Phosphodiesterase inhibitors

Vias intracelulares da ação do Sildenafil no diabetes insipidus induzido pelo lítio / Sildenafil action in lithium-induced NDI: intracellular pathway

Talita Rojas Cunha Sanches

13 June 2012

Os pacientes que usam lítio (Li) para tratamento do transtorno bipolar frequentemente apresentam poliúria e deficiência de concentração urinária, sintomas do Diabetes Insipidus Nefrogênico (DIN). Animais tratados com Li apresentam baixos níveis de produção de adenosina monofosfato cíclico (AMPc) em resposta ao hormônio antidiurético (HAD). O Sildenafil (Sil), um inibidor da fosfodiesterase 5 (PDE5), eleva os níveis intracelulares de guanosina monofosfato cíclico (GMPc), levando a inserção de aquaporina 2 (AQP2) na membrana plasmática das células do ducto coletor. Portanto, inibidores de PDE podem promover a inserção de AQP2 na membrana plasmática mesmo sem a ativação do receptor de HAD, indicando a participação de uma via alternativa mediada pelo GMPc. Nós investigamos as vias de ação do Sil no tratamento da DIN induzida pelo Li. Ratos Wistar foram divididos nos seguintes grupos: grupo controle, recebendo dieta alimentar normal durante quatro semanas; grupo Li, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas; grupo Li + Sil, recebendo dieta alimentar normal com 40 mmol Li por quilo de dieta durante quatro semanas e 200 mg por quilo de dieta de Sil a partir da segunda semana; grupo Sil, recebendo dieta alimentar normal durante a primeira semana e a partir da segunda semana recebendo dieta normal com 200 mg de Sil por quilo de dieta. Os animais do grupo Li desenvolveram poliúria, diminuição da osmolalidade urinária e diminuição da expressão da AQP2 tanto na fração citoplasmática como de membrana celular e o Sil reverteu essas alterações. Demonstramos ainda que a concentração de GMPc intracelular estava aumentada nos túbulos papilares tratados com Sil. Observamos que a provável via de fosforilação da AQP2 induzida pelo GMPc é pela PKA. Além disso, o tratamento com Sil aumenta a expressão de pCreb, fator de transcrição para ativação do gene da AQP2. Observamos ainda que o Li diminui a expressão de eNOS e o tratamento com Sil normaliza essa diminuição. Assim, concluímos que o tratamento com Sil em ratos com DIN melhora a poliúria aumentando a produção e a inserção de AQP2. O tratamento com Sil pode ser benéfico para pacientes que sofrem com DIN induzido pelo Li / Patients taking lithium to treat bipolar disorder often present polyuria and urinary concentrating defect. In addition, lithium-treated animals present lower cyclic adenosine monophosphate production in response to vasopressin. Sildenafil (Sil), a phosphodiesterase 5 (PDE5) inhibitor, elevates intracellular cyclic guanosine monophosphate (cGMP) levels, leading to plasma membrane accumulation of aquaporin 2 (AQP2). Therefore, PDE inhibitors might induce AQP2 membrane insertion even without vasopressin receptor activation by activating a parallel cGMP-mediated signal transduction pathway. We investigated Sil pathways of action in rats with lithium-induced nephrogenic Diabetes Insipidus (NDI). Wistar rats received lithium (40 mmol/kg food) or not for 4 weeks (Li or control), some rats also receiving sildenafil (200 mg/kg food) in weeks 2-4, with or without lithium (Li+Sil orSil). Animals in Li group developed polyuria, decreased urinary osmolality and decreased expression of AQP2 in both the cytoplasmic fraction and the cell membrane and Sil reversed these changes. We also demonstrated that intracellular cGMP concentration was increased in papillary tubules treated with Sil. We found that PKA may be involved in the pathway of cGMP induced AQP2 phosphorylation. In addition, Sil treatment increases Creb phosphorylation. Creb phosphorylation, acts as AQP2 gene transcription factor. We also observed that Li decreases eNOS expression and treatment with Sil normalizes this alteration. We conclude that Sil treatment improves polyuria by increasing production and insertion of AQP2. Sil treatment may be beneficial to patients suffering from induced DIN Li

Aquaporina 2

Diabetes insípido nefrogênico

Inibidores de fosfodiesterase

Lítio/efeitos adversos

Nucleotídeos cíclicos

Aquaporin 2

Cyclic nucleotides

Lithium/adverse effects

Nephrogenic diabetes insipidus

Phosphodiesterase inhibitors