The Role of Angiotensin-(1-7) in a Mouse Model of Renal Fibrosis

Zimmerman, Danielle

January 2013

Angiotensin-(1-7) [Ang-(1-7)] is a heptapeptide component of the renin angiotensin system and the endogenous ligand for the Mas receptor. Ang-(1-7) is generated mainly via angiotensin converting enzyme 2 (ACE2)-dependent cleavage of Angiotensin (Ang) II. Studies suggest Ang-(1-7) may protect against progression of renal injury in experimental models of chronic kidney disease, although the responses may be dose dependent. The role of Ang-(1-7) in the progression of renal fibrosis in unilateral ureteral obstruction (UUO) remains unclear. We tested the hypothesis that endogenous Ang-(1-7) and low dose exogenous Ang-(1-7) would protect against renal injury in the UUO model, while high dose Ang-(1-7) would exacerbate renal injury. Male C57Bl/6 mice underwent UUO and received vehicle, the Ang-(1-7) antagonist A779, or one of three doses of Ang-(1-7) for 10 days. Treatment with A779 exacerbated renal injury as seen by increased fibronectin, transforming growth factor-β (TGF-β), and α-smooth muscle actin (α-SMA) expression, increased tubulointerstitial fibrosis scores, macrophage infiltration, apoptosis, and NADPH oxidase activity in obstructed kidneys. Paradoxically, delivery of exogenous Ang-(1-7) was associated with increased renal injury regardless of dose. Taken together, these data indicate the Mas receptor may be sensitive to concentrations of Ang-(1-7) within the obstructed kidney and that exogenous Ang-(1-7) stimulates pro-fibrotic and pro-inflammatory signalling through unclear pathways.

Angiotensin-(1-7)

renal fibrosis

UUO

chronic kidney disease

A779

renal inflammation

Severity and Frequency of Proximal Tubule Injury Determines Renal Prognosis / 近位尿細管障害の強さや頻度が腎予後を決定する

Takaori, Koji

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21008号 / 医博第4354号 / 新制||医||1028(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 長船 健二, 教授 小川 修, 教授 横出 正之 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

acute kidney injury (AKI)

chronic kidney disease (CKD)

proximal tubule injury

renal fibrosis

490

Magnetic Resonance Elastography of the Kidneys

Gandhi, Deep B.

09 November 2018

No description available.

Biomedical Engineering

Medical Imaging

Radiology

Magnetic Resonance Elastography

Kidneys

Renal fibrosis

biomedical engineering

Participação de diferentes subtipos de macrófagos e a contribuição do ácido úrico solúvel, dos receptores TLR2 e TLR4 e das moléculas MyD88 e NLRP3 para o desenvolvimento da fibrose renal. / Involvement of different subtypes of macrophages and the contribution of soluble uric acid, the receptors TLR2 and TLR4 and MyD88 and NLRP3 molecules to the development of renal fibrosis.

Braga, Tárcio Teodoro

16 June 2014

A doença renal crônica é uma doença mediada pelo sistema imune e caracterizada por fibrose. Camundongos deficientes em TLR2, TLR4, MyD88 e NLRP3 se mostraram protegidos frente ao dano renal e à deposição de colágeno após serem submetidos à obstrução unilateral do ureter (UUO). Além disso, os camundongos protegidos exibiram menor produção de citocinas relacionadas com um perfil imune Th2 e apresentaram menor acúmulo de macrófagos do subtipo M2. Inicialmente, creditamos aos macrófagos M2 o papel de macrófagos formadores de fibrose uma vez que tal subpopulação é encontrada em maior número aos sete dias após a UUO em animais WT, porém, vimos que os personagens centrais no desenvolvimento da fibrose são macrófagos M1, encontrados no início da lesão renal. Também vimos que o ácido úrico é a molécula capaz de induzir a troca de fenótipo de M1 para M2 ao longo da UUO, além de ser capaz de ativar a via do inflamassoma. O ácido úrico solúvel é liberado em um contexto de hipóxia e ativa o complexo do inflamassoma NLRP3 por mecanismos diferentes, mas complementares. / Chronic kidney disease is an immune mediated disease characterized by fibrosis development. The damaged tissue releases molecules such as soluble uric acid resulting from the degradation of extracellular matrix or dead cells, which activate TLR and NLR, leading to the translocation of MyD88 in many cell types. This modulation of the immune system interferes with the activation of different subtypes of macrophages and activity of CD4+ T cells, with the Th1/Th2 paradigm as a possible effector mechanism of fibrosis. TLR2, TLR4, MyD88, and NLRP3 deficient mice are protected against renal damage and collagen deposition after being submitted to unilateral ureteral obstruction (UUO), when compared to wild type animals. Moreover, protected mice exhibited less production of Th2 related cytokines and reduced accumulation of M2 macrophages. Initially, we hypothesized M2 macrophages are responsible for fibrosis formation since this subset is found in greater numbers seven days after UUO in WT mice, however, we observed the central characters on the development of fibrosis are M1 macrophages found in the onset of renal injury. These data were confirmed by the injection of Stat6 KO M1 macrophages into Rag deficient mice previously depleted of macrophages and subjected to UUO, in which we observed higher proteinuria and increased collagen deposition. We also observed that uric acid is able to induce the exchange of phenotype from M1 to M2 along the UUO, besides being able to activate the inflammasome pathway. The soluble uric acid is released in the context of hypoxia and activates the NLRP3 inflammasome complex by different, but complementary mechanisms. Therefore, the renal damage releases soluble uric acid, which signals via innate immune receptors, and the damage brings as a consequence the deposition of proteins in the renal interstitium, culminating in fibrosis.

Ácido úrico solúvel

Fibrose renal

Inflamassoma

Inflammasome

Macrófagos

Macrophages

Renal fibrosis

Resposta imune Th2

Soluble uric acid

Th2 immune response

Expressão intra-renal dos RNA mensageiros de proteínas associadas ao podócito e de fatores pro fibróticos em glomerulopatias primárias e secundárias

Souza, Maysa Lucena de

January 2015

Introdução: A podocitopenia e a podocitúria são marcadores de injúria glomerular em podocitopatias (POD) e glomerulonefrites proliferativas (GNsP), e mesmo em fases iniciais destas doenças mecanismos pró-fibróticos indutores de glomeruloesclerose e fibrose renal progressiva estão ativados. Objetivo: Avaliar pacientes portadores de glomerulopatias biopsiados em diferentes tempos de evolução clínica, correlacionando lesões morfológicas dos compartimentos glomerular e túbulo-intersticial com a expressão dos RNAm de proteínas associadas ao podócito e de fatores pró-fibróticos no tecido renal. Materiais e Métodos: Foram incluídos no estudo oitenta e quatro pacientes adultos portadores de glomerulopatias de diferentes etiologias submetidos à biópsia renal por indicação clínica. As lesões histológicas foram individualizadas e a porcentagem de fibrose intersticial e atrofia tubular foi quantificada na coloração de Tricrômio de Masson. Foram mensurados no tecido renal o log 10 do RNAm pela reação em cadeia da polimerase em tempo real das proteínas associadas ao podócito alfa actinina-4, podocina e podocalixina e dos fatores pró-fibróticos fator de crescimento transformador ₁ (TGF₁), fator de crescimento do tecido conectivo (CTGF) e fator de crescimento derivado do endotélio A (VEGF-A). A secção livre de neoplasia de rins removidos por câncer renal foram usados como controles da expressão dos RNAm. Resultados: No grupo POD, os diagnósticos histopatológicos foram: Glomeruloesclerose segmentar e focal (n=20), GN membranosa (n=12), Nefropatia diabética (n=9) e Lesões mínimas (n=7); no grupo GNsP foram Nefropatia por IgA (n=15), GN membranoproliferativa (n=5), Nefrite lúpica (n=5) e GN proliferativa mesangial (n=4), e outros diagnósticos (n=7). O RNAm do tecido renal nos pacientes com POD e GNsP foi significativamente menor comparado ao dos controles para todos os genes estudados. A presença de crescentes, independente do estágio evolutivo, foi associada à maior expressão do RNAm de alfa actinina-4 (p=0,04), podocina (p=0,01) e podocalixina (p=0,038). O RNAm dos genes pró-fibróticos também estava inibido comparado a sua expressão no rim normal. Nas GNsP, o VEGF-A (p<0,001) e o CTGF (p<0,001) foram os genes com menor nível de expressão comparado aos controles. Em relação às biópsias com lesões crescênticas, tanto o RNAm do TGFβ1 (p=0,001) como do CTGF (p=0,041) tiveram maior expressão comparado ao RNAm das biópsias sem crescentes. Nas biópsias com fibrose intersticial superior a 30%, a expressão do RNAm de TGFβ1, (p=0,038) e do VEGF-A (p=0,040) foi maior do que nas biópsias com fibrose leve. O maior tempo entre o início da doença clínica e a realização da biópsia renal não teve influência detectável na expressão tecidual do RNAm dos biomarcadores estudados. Conclusões: Pacientes com podocitopatias ou glomerulonefrites proliferativas apresentaram inibição da expressão do RNAm de proteínas associadas ao podócito e de fatores indutores de fibrose renal, achados compatíveis com injúria podocitária e podocitopenia. Nas biópsias renais com maior grau de fibrose intersticial e atrofia tubular, assim também como naquelas com lesões crescênticas, a expressão do RNAm de fatores fibrogênicos como TGF-β1 e CTGF foi significativamente aumentada, o que pode sugerir supra-regulação de moléculas associadas a mecanismos de fibrose renal e patologia glomerular. / Introduction: Both podocitopenia and podocyturia are markers of glomerular injury in podocytopathies (POD) and proliferative glomerulonephritis (PGNs), and even in the early stages of these diseases pro-fibrotic mechanisms leading to glomerulosclerosis and progressive renal fibrosis are running. Objective: This study evaluated patients with glomerulopathies who were biopsied at different times of clinical evolution, correlating morphological lesions of the glomerular and tubulointerstitial compartments with renal messenger RNA (mRNA) expression of podocyteassociated proteins and pro-fibrotic factors. Materials and Methods: The study included eighty-four adult patients with glomerulopathies of different etiologies undergoing kidney biopsy as clinically indicated. The histological lesions were individualized and the percentage of interstitial fibrosis and tubular atrophy was quantified on Trichrome Masson staining. Tissue log 10 mRNA of the podocyte proteins alpha-actinin-4, podocin and podocalyxin and of the pro-fibrotic factors transforming growth factor β₁ (TGFβ₁), connective tissue growth factor (CTGF) and vascular endothelium growth factor A (VEGF-A) was measured by real time polymerase chain reaction. The sections free of neoplasia of kidneys removed for renal cancer were used as controls for the mRNA tissue expression. Results: Results: In the POD group, the histopathological diagnoses were: focal segmental glomerulosclerosis (n=20), membranous (n=12), diabetic nephropathy (n=9) and minimal changes (n=7); in PGNs group were IgA nephropathy (n=15), membranoproliferative (n=5), lupus nephritis (n=5) and mesangial proliferative (n=4), and other diagnoses (n=7). Messenger RNA expression of POD and PGNs groups was significantly lower compared to controls for all the studied genes. The presence of crescents, regardless of their evolutive stage, was associated with higher mRNA expression of alpha-actinin-4 (p=0.04), podocin (p=0.01) and podocalyxin (p=0.038). The mRNA of pro-fibrotic genes was also inhibited compared to their expression in normal kidneys. In PGNs, VEGF-A (p<0.001) and CTGF (p<0.001) were the genes with lowest mRNA levels compared to controls. Regarding the biopsies with crescentic lesions, both the mRNA of TGFβ1 (p=0.001) and CTGF (p=0.041) were highly expressed as compared to those of biopsies without crescents. In biopsies with moderate to severe interstitial fibrosis (more than 30%), the mRNA expression of TGFβ1 (p=0.038) and VEGF-A (p=0.040) was highly expressed compared to biopsies with mild fibrosis. A longer interval between the clinical disease and the performance of kidney biopsy did not have a detectable influence on tissue mRNA expression of the studied biomarkers. Conclusions: Patients with POD or PGNs presented inhibition of the mRNA expression of podocyte-associated proteins and pro-fibrotic factors, findings that are consistent with podocyte injury and podocitopenia. In renal biopsies with a higher degree of interstitial fibrosis and tubular atrophy, as well as those with crescentic lesions, the mRNA expression of fibrogenic factors such as TGF-β1 and CTGF was significantly increased, which may suggest upregulation of molecules associated with mechanisms of renal fibrosis and glomerular pathology.

Glomerulonefrite

Fatores de crescimento transformadores

Nefropatias

Glomerulonephritis

Podocytopathy

Renal fibrosis

Pro-fibrotic factors

Podocin

Transforming growth factor β

Les récepteurs cannabinoïdes : une nouvelle cible thérapeutique de la fibrogenèse rénale / Cannabinoid Receptors : a New Therapeutic Target of Renal Fibrosis

Lecru, Lola

12 December 2014

L’insuffisance rénale chronique et la dysfonction chronique de l’allogreffe (DCA) sont associées à la fibrogenèse rénale, qui représente un enjeu majeur en santé publique et nécessite l’exploration de nouvelles cibles thérapeutiques. Dans ce contexte, nous avons étudié l’expression des gènes modulés au cours d’un modèle reconnu de fibrogenèse chez la souris (le modèle d’obstruction urétérale unilatéral, ou OUU). L'expression du gène codant pour le récepteur cannabinoïde apparait sept fois augmentée dans les reins pathologiques comparée à leurs contrôles internes. L’expression du récepteur est également significativement augmentée dans plusieurs types de néphropathies et au cours de la DCA chez l’homme. Le système cannabinoïde se compose de deux types de récepteurs, le type 1 (CB1) et le type 2 (CB2). Ceux-ci jouent des rôles opposés au cours de la fibrose hépatique, suggérant que l’inactivation de CB1 et l’activation de CB2 pourraient constituer une thérapeutique anti-fibrosante d’intérêt, indépendamment de leur implication dans le syndrome métabolique. Ainsi, nous avons montré pour la première fois que le blocage de CB1 par invalidation génétique ou par inhibition pharmacologique permet une réduction significative de la fibrose rénale induite par OUU. La potentialisation de cet effet par l’administration d’un agoniste sélectif de CB2 ne semble en revanche pas relevante, illustrant le rôle prédominant de CB1 dans ce modèle. L’étude du mécanisme réalisée in vitro sur des myofibroblastes primaires activés au TGF-β1 révèle une expression de CB1 augmentée, associée à une synthèse de collagènes significativement bloquée après un traitement par un antagoniste sélectif de CB1. Ceci suggère que l’effet anti-fibrosant dépendant de CB1 agit directement sur le myofibroblaste. Ainsi, nos travaux montrent pour la première fois l’effet anti-fibrosant de l’inactivation de CB1, avec une action directe sur la cellule effectrice de la fibrose, suggérant que CB1 représente une nouvelle cible thérapeutique et un médiateur majeur de la fibrose rénale. Son expression dans les néphropathies humaines des reins natifs présente une forte corrélation avec le taux de créatinine et pourrait constituer un nouveau biomarqueur d’atteinte rénale. / Chronic kidney disease, secondary to renal fibrogenesis, is a burden on public health. In the present study, we show that the cannabinoid 1 receptor (CB1) may be a new pathway in renal fibrogenesis, independently of its involvement in metabolic disease. We found that CB1 expression was highly expressed in kidney biopsies of patients suffering from IgA nephropathy, diabetes, and acute interstitial nephritis. We also used an experimental model of renal fibrosis, the unilateral ureteral-obstruction model, in mice. Both genetic and pharmacological invalidation of CB1 induced a profound reduction in renal fibrosis, showing its prominent role in renal fibrosis. Cannabinoid receptor 2 is also involved in renal fibrogenesis but does not potentialize the role of CB1. CB1 expression is drastically increased in myofibroblasts upon TGFß-1 stimulation. The decrease in renal fibrosis during CB1 invalidation is explained by a direct action on myofibroblasts: CB1 blockade reduced collagen expression in vitro. In addition, CB1 also modulates the macrophage infiltrate responsible for renal fibrosis in unilateral ureteral obstruction through a decrease in MCP1 synthesis, a major chemoattractant cytokine. Our study strongly suggests a major role for CB1 in the activation of myofibroblasts, which are the main effector cells in renal fibrogenesis, and suggests that CB1 may represent a major new target for treating chronic kidney disease.

Rein

Dysfonction chronique d’allogreffe

Insuffisance rénale chronique

Fibrose

Cannabinoïde

Myofibroblaste

Renal fibrosis

Cannabinoid

Myofibroblast

Chronic kidney disease

Medicinal Herbs and the Kidney: Unresolved Issues

Kenneth Wojcikowski

Unknown Date

In the exploration into new therapeutic agents for human disease, medicinal herbs offer an enormous resource due to their wide range of biologically active components. However, because of these biologically active components, medicinal herbs can also have toxic side effects. The focus of this thesis is the effect of herbal therapies, both good and bad, on chronic kidney disease (CKD) and tubulointerstitial fibrosis. Tubulointerstitial fibrosis is considered one of the defining characteristics of CKD. In Chapter 1, the literature regarding the pathogenesis of tubulointerstitial fibrosis is reviewed, beginning with the mechanisms of its development, the main structural and functional features, and the molecular mediators. The structural features include activation of resident fibroblasts and transition of tubular epithelial cells into myofibroblasts, deposition of extracellular matrix proteins, increased apoptosis of normal cells of the renal nephron and development of tubular atrophy, increased renal oxidative stress, and hypoxia of renal tissues. Molecular mediators that are explored include angiotensin II, transforming growth factor-ß1 and numerous other cytokines and growth factors. Pharmacological manipulation of these features and their molecular mediators for regression of tubulointerstitial fibrosis is then discussed. Currently, the gold standard of therapy for people with CKD is blockade of the renin-angiotensin-aldosterone system with angiotensin converting enzyme inhibitors (ACEIs) and/or angiotensin receptor blockers (ARBs). Because of the complexity of the pathogenesis of renal fibrosis and the multiple mechanisms by which ACEIs and ARBs work, this portion of the thesis focuses on the qualities that additional agents should have to complement their actions. These additional agents could work by decreasing oxidative damage, by decreasing fibroblast numbers through apoptosis, through the interruption of inflammatory, fibrotic mediators, by increasing anti-inflammatory mediators or through other mechanisms. The literature review therefore continues with a discussion of the historical use of medicinal herbs in genitourinary pathologies and the known contributions that medicinal herbs can make to the treatment or development of tubulointerstitial fibrosis and CKD. From this review, a large number of herbs were identified as having traditional use in renal disorders or as being of interest, currently, to researchers of renal pathologies. However, much information is lacking regarding the mechanisms by which the hypothesised benefits occur, making it impossible to assess which herb(s) may offer valuable additive support or alternative treatments to the therapies currently given to people with CKD. Furthermore, there is a lack of information regarding toxicity of these herbs; many herbs have never been assessed in cell culture or in animal toxicity studies. It was apparent that preliminary in vitro work was necessary before in vivo pharmacological work could be undertaken. This thesis, therefore, aimed to test the following hypotheses: (1) That medicinal herbs used currently for treatment of renal dysfunction have high anti-oxidant properties that can be further enhanced by specific extraction processes; (2) That the in vitro testing of selected extracts from medicinal herbs, identified in (1), will reveal some anti-oxidant benefits or indications of toxicity that need careful analysis in animal studies; (3) That careful in vivo testing of specific toxic medicinal herbs identified in these leadup studies will define specific pathological processes that predict an outcome of CKD; and (4) That careful in vivo testing of selected medicinal herbs, used in conjunction with more conventional medicines for CKD, will show an additive benefit when used to ameliorate development of CKD induced using an established animal model. The subsequent laboratory work was designed to test the validity of these hypotheses and the results are then presented in Chapters that each comprise a publication. The aim of Chapter 2 was to present a systematic analysis of the oxidant properties of 55 medicinal herbs that have been used traditionally to treat kidney and urinary disorders or have been of recent interest to researchers of renal disorders. Since different extraction processes yield different constituents, each of the herbs was sequentially extracted with three solvents of decreasing polarity. An assay was performed on each of the fractions to determine the oxygen radical absorbance capacity. The aim of Chapter 3 was to test the benefit or otherwise of each of the three extracts of the chosen herbs using an in vitro cell study. Each extract was tested for potential toxic, apoptotic, mutagenic and antioxidant activity on normal mammalian renal tubular epithelial cells (NRK-52E). The effect of the extracts on renal fibroblasts (NRK-49F) was also analysed. Several specific hypotheses arose from the combination of the systematic analyses and the literature review regarding benefits and toxicities of a number of the extracts. The subsequent in vivo work was designed to test the validity of two of these hypotheses. The aim of Chapter 4 was to test the hypotheses developed from the results of the previous Chapter. The herb Dioscorea villosa had demonstrated extreme cytotoxicity to mammalian renal epithelial cells and had caused transdifferentiation of epithelial cells into fibroblasts. An in vivo rodent model was used to test chronic dosage with this herb and its toxicity and predisposition for induction of CKD verified. The aim of Chapter 5 was to determine whether a herbal preparation (Angelica sinensis and Astragalus membranaceus) that had some support from the literature and the results from Chapters 2 and 3, could complement the actions of ACEIs in a rodent model of renal fibrosis (unilateral ureteral obstruction). The combination of herbal medicines and the ACEI was significantly more effective than the ACEI alone in ameliorating several characteristics of CKD development. To conclude the thesis, Chapter 6 provides an overview discussion of the results and a critical analysis of the methods used. Further, Chapter 6 looks towards future experiments that are planned to further resolve issues of concern about effects on renal health from use of medicinal herbs. .

Expressão intra-renal dos RNA mensageiros de proteínas associadas ao podócito e de fatores pro fibróticos em glomerulopatias primárias e secundárias

Souza, Maysa Lucena de

January 2015

Introdução: A podocitopenia e a podocitúria são marcadores de injúria glomerular em podocitopatias (POD) e glomerulonefrites proliferativas (GNsP), e mesmo em fases iniciais destas doenças mecanismos pró-fibróticos indutores de glomeruloesclerose e fibrose renal progressiva estão ativados. Objetivo: Avaliar pacientes portadores de glomerulopatias biopsiados em diferentes tempos de evolução clínica, correlacionando lesões morfológicas dos compartimentos glomerular e túbulo-intersticial com a expressão dos RNAm de proteínas associadas ao podócito e de fatores pró-fibróticos no tecido renal. Materiais e Métodos: Foram incluídos no estudo oitenta e quatro pacientes adultos portadores de glomerulopatias de diferentes etiologias submetidos à biópsia renal por indicação clínica. As lesões histológicas foram individualizadas e a porcentagem de fibrose intersticial e atrofia tubular foi quantificada na coloração de Tricrômio de Masson. Foram mensurados no tecido renal o log 10 do RNAm pela reação em cadeia da polimerase em tempo real das proteínas associadas ao podócito alfa actinina-4, podocina e podocalixina e dos fatores pró-fibróticos fator de crescimento transformador ₁ (TGF₁), fator de crescimento do tecido conectivo (CTGF) e fator de crescimento derivado do endotélio A (VEGF-A). A secção livre de neoplasia de rins removidos por câncer renal foram usados como controles da expressão dos RNAm. Resultados: No grupo POD, os diagnósticos histopatológicos foram: Glomeruloesclerose segmentar e focal (n=20), GN membranosa (n=12), Nefropatia diabética (n=9) e Lesões mínimas (n=7); no grupo GNsP foram Nefropatia por IgA (n=15), GN membranoproliferativa (n=5), Nefrite lúpica (n=5) e GN proliferativa mesangial (n=4), e outros diagnósticos (n=7). O RNAm do tecido renal nos pacientes com POD e GNsP foi significativamente menor comparado ao dos controles para todos os genes estudados. A presença de crescentes, independente do estágio evolutivo, foi associada à maior expressão do RNAm de alfa actinina-4 (p=0,04), podocina (p=0,01) e podocalixina (p=0,038). O RNAm dos genes pró-fibróticos também estava inibido comparado a sua expressão no rim normal. Nas GNsP, o VEGF-A (p<0,001) e o CTGF (p<0,001) foram os genes com menor nível de expressão comparado aos controles. Em relação às biópsias com lesões crescênticas, tanto o RNAm do TGFβ1 (p=0,001) como do CTGF (p=0,041) tiveram maior expressão comparado ao RNAm das biópsias sem crescentes. Nas biópsias com fibrose intersticial superior a 30%, a expressão do RNAm de TGFβ1, (p=0,038) e do VEGF-A (p=0,040) foi maior do que nas biópsias com fibrose leve. O maior tempo entre o início da doença clínica e a realização da biópsia renal não teve influência detectável na expressão tecidual do RNAm dos biomarcadores estudados. Conclusões: Pacientes com podocitopatias ou glomerulonefrites proliferativas apresentaram inibição da expressão do RNAm de proteínas associadas ao podócito e de fatores indutores de fibrose renal, achados compatíveis com injúria podocitária e podocitopenia. Nas biópsias renais com maior grau de fibrose intersticial e atrofia tubular, assim também como naquelas com lesões crescênticas, a expressão do RNAm de fatores fibrogênicos como TGF-β1 e CTGF foi significativamente aumentada, o que pode sugerir supra-regulação de moléculas associadas a mecanismos de fibrose renal e patologia glomerular. / Introduction: Both podocitopenia and podocyturia are markers of glomerular injury in podocytopathies (POD) and proliferative glomerulonephritis (PGNs), and even in the early stages of these diseases pro-fibrotic mechanisms leading to glomerulosclerosis and progressive renal fibrosis are running. Objective: This study evaluated patients with glomerulopathies who were biopsied at different times of clinical evolution, correlating morphological lesions of the glomerular and tubulointerstitial compartments with renal messenger RNA (mRNA) expression of podocyteassociated proteins and pro-fibrotic factors. Materials and Methods: The study included eighty-four adult patients with glomerulopathies of different etiologies undergoing kidney biopsy as clinically indicated. The histological lesions were individualized and the percentage of interstitial fibrosis and tubular atrophy was quantified on Trichrome Masson staining. Tissue log 10 mRNA of the podocyte proteins alpha-actinin-4, podocin and podocalyxin and of the pro-fibrotic factors transforming growth factor β₁ (TGFβ₁), connective tissue growth factor (CTGF) and vascular endothelium growth factor A (VEGF-A) was measured by real time polymerase chain reaction. The sections free of neoplasia of kidneys removed for renal cancer were used as controls for the mRNA tissue expression. Results: Results: In the POD group, the histopathological diagnoses were: focal segmental glomerulosclerosis (n=20), membranous (n=12), diabetic nephropathy (n=9) and minimal changes (n=7); in PGNs group were IgA nephropathy (n=15), membranoproliferative (n=5), lupus nephritis (n=5) and mesangial proliferative (n=4), and other diagnoses (n=7). Messenger RNA expression of POD and PGNs groups was significantly lower compared to controls for all the studied genes. The presence of crescents, regardless of their evolutive stage, was associated with higher mRNA expression of alpha-actinin-4 (p=0.04), podocin (p=0.01) and podocalyxin (p=0.038). The mRNA of pro-fibrotic genes was also inhibited compared to their expression in normal kidneys. In PGNs, VEGF-A (p<0.001) and CTGF (p<0.001) were the genes with lowest mRNA levels compared to controls. Regarding the biopsies with crescentic lesions, both the mRNA of TGFβ1 (p=0.001) and CTGF (p=0.041) were highly expressed as compared to those of biopsies without crescents. In biopsies with moderate to severe interstitial fibrosis (more than 30%), the mRNA expression of TGFβ1 (p=0.038) and VEGF-A (p=0.040) was highly expressed compared to biopsies with mild fibrosis. A longer interval between the clinical disease and the performance of kidney biopsy did not have a detectable influence on tissue mRNA expression of the studied biomarkers. Conclusions: Patients with POD or PGNs presented inhibition of the mRNA expression of podocyte-associated proteins and pro-fibrotic factors, findings that are consistent with podocyte injury and podocitopenia. In renal biopsies with a higher degree of interstitial fibrosis and tubular atrophy, as well as those with crescentic lesions, the mRNA expression of fibrogenic factors such as TGF-β1 and CTGF was significantly increased, which may suggest upregulation of molecules associated with mechanisms of renal fibrosis and glomerular pathology.

Glomerulonefrite

Fatores de crescimento transformadores

Nefropatias

Glomerulonephritis

Podocytopathy

Renal fibrosis

Pro-fibrotic factors

Podocin

Transforming growth factor β

Expressão intra-renal dos RNA mensageiros de proteínas associadas ao podócito e de fatores pro fibróticos em glomerulopatias primárias e secundárias

Souza, Maysa Lucena de

January 2015

Introdução: A podocitopenia e a podocitúria são marcadores de injúria glomerular em podocitopatias (POD) e glomerulonefrites proliferativas (GNsP), e mesmo em fases iniciais destas doenças mecanismos pró-fibróticos indutores de glomeruloesclerose e fibrose renal progressiva estão ativados. Objetivo: Avaliar pacientes portadores de glomerulopatias biopsiados em diferentes tempos de evolução clínica, correlacionando lesões morfológicas dos compartimentos glomerular e túbulo-intersticial com a expressão dos RNAm de proteínas associadas ao podócito e de fatores pró-fibróticos no tecido renal. Materiais e Métodos: Foram incluídos no estudo oitenta e quatro pacientes adultos portadores de glomerulopatias de diferentes etiologias submetidos à biópsia renal por indicação clínica. As lesões histológicas foram individualizadas e a porcentagem de fibrose intersticial e atrofia tubular foi quantificada na coloração de Tricrômio de Masson. Foram mensurados no tecido renal o log 10 do RNAm pela reação em cadeia da polimerase em tempo real das proteínas associadas ao podócito alfa actinina-4, podocina e podocalixina e dos fatores pró-fibróticos fator de crescimento transformador ₁ (TGF₁), fator de crescimento do tecido conectivo (CTGF) e fator de crescimento derivado do endotélio A (VEGF-A). A secção livre de neoplasia de rins removidos por câncer renal foram usados como controles da expressão dos RNAm. Resultados: No grupo POD, os diagnósticos histopatológicos foram: Glomeruloesclerose segmentar e focal (n=20), GN membranosa (n=12), Nefropatia diabética (n=9) e Lesões mínimas (n=7); no grupo GNsP foram Nefropatia por IgA (n=15), GN membranoproliferativa (n=5), Nefrite lúpica (n=5) e GN proliferativa mesangial (n=4), e outros diagnósticos (n=7). O RNAm do tecido renal nos pacientes com POD e GNsP foi significativamente menor comparado ao dos controles para todos os genes estudados. A presença de crescentes, independente do estágio evolutivo, foi associada à maior expressão do RNAm de alfa actinina-4 (p=0,04), podocina (p=0,01) e podocalixina (p=0,038). O RNAm dos genes pró-fibróticos também estava inibido comparado a sua expressão no rim normal. Nas GNsP, o VEGF-A (p<0,001) e o CTGF (p<0,001) foram os genes com menor nível de expressão comparado aos controles. Em relação às biópsias com lesões crescênticas, tanto o RNAm do TGFβ1 (p=0,001) como do CTGF (p=0,041) tiveram maior expressão comparado ao RNAm das biópsias sem crescentes. Nas biópsias com fibrose intersticial superior a 30%, a expressão do RNAm de TGFβ1, (p=0,038) e do VEGF-A (p=0,040) foi maior do que nas biópsias com fibrose leve. O maior tempo entre o início da doença clínica e a realização da biópsia renal não teve influência detectável na expressão tecidual do RNAm dos biomarcadores estudados. Conclusões: Pacientes com podocitopatias ou glomerulonefrites proliferativas apresentaram inibição da expressão do RNAm de proteínas associadas ao podócito e de fatores indutores de fibrose renal, achados compatíveis com injúria podocitária e podocitopenia. Nas biópsias renais com maior grau de fibrose intersticial e atrofia tubular, assim também como naquelas com lesões crescênticas, a expressão do RNAm de fatores fibrogênicos como TGF-β1 e CTGF foi significativamente aumentada, o que pode sugerir supra-regulação de moléculas associadas a mecanismos de fibrose renal e patologia glomerular. / Introduction: Both podocitopenia and podocyturia are markers of glomerular injury in podocytopathies (POD) and proliferative glomerulonephritis (PGNs), and even in the early stages of these diseases pro-fibrotic mechanisms leading to glomerulosclerosis and progressive renal fibrosis are running. Objective: This study evaluated patients with glomerulopathies who were biopsied at different times of clinical evolution, correlating morphological lesions of the glomerular and tubulointerstitial compartments with renal messenger RNA (mRNA) expression of podocyteassociated proteins and pro-fibrotic factors. Materials and Methods: The study included eighty-four adult patients with glomerulopathies of different etiologies undergoing kidney biopsy as clinically indicated. The histological lesions were individualized and the percentage of interstitial fibrosis and tubular atrophy was quantified on Trichrome Masson staining. Tissue log 10 mRNA of the podocyte proteins alpha-actinin-4, podocin and podocalyxin and of the pro-fibrotic factors transforming growth factor β₁ (TGFβ₁), connective tissue growth factor (CTGF) and vascular endothelium growth factor A (VEGF-A) was measured by real time polymerase chain reaction. The sections free of neoplasia of kidneys removed for renal cancer were used as controls for the mRNA tissue expression. Results: Results: In the POD group, the histopathological diagnoses were: focal segmental glomerulosclerosis (n=20), membranous (n=12), diabetic nephropathy (n=9) and minimal changes (n=7); in PGNs group were IgA nephropathy (n=15), membranoproliferative (n=5), lupus nephritis (n=5) and mesangial proliferative (n=4), and other diagnoses (n=7). Messenger RNA expression of POD and PGNs groups was significantly lower compared to controls for all the studied genes. The presence of crescents, regardless of their evolutive stage, was associated with higher mRNA expression of alpha-actinin-4 (p=0.04), podocin (p=0.01) and podocalyxin (p=0.038). The mRNA of pro-fibrotic genes was also inhibited compared to their expression in normal kidneys. In PGNs, VEGF-A (p<0.001) and CTGF (p<0.001) were the genes with lowest mRNA levels compared to controls. Regarding the biopsies with crescentic lesions, both the mRNA of TGFβ1 (p=0.001) and CTGF (p=0.041) were highly expressed as compared to those of biopsies without crescents. In biopsies with moderate to severe interstitial fibrosis (more than 30%), the mRNA expression of TGFβ1 (p=0.038) and VEGF-A (p=0.040) was highly expressed compared to biopsies with mild fibrosis. A longer interval between the clinical disease and the performance of kidney biopsy did not have a detectable influence on tissue mRNA expression of the studied biomarkers. Conclusions: Patients with POD or PGNs presented inhibition of the mRNA expression of podocyte-associated proteins and pro-fibrotic factors, findings that are consistent with podocyte injury and podocitopenia. In renal biopsies with a higher degree of interstitial fibrosis and tubular atrophy, as well as those with crescentic lesions, the mRNA expression of fibrogenic factors such as TGF-β1 and CTGF was significantly increased, which may suggest upregulation of molecules associated with mechanisms of renal fibrosis and glomerular pathology.

Glomerulonefrite

Fatores de crescimento transformadores

Nefropatias

Glomerulonephritis

Podocytopathy

Renal fibrosis

Pro-fibrotic factors

Podocin

Transforming growth factor β

Participação de diferentes subtipos de macrófagos e a contribuição do ácido úrico solúvel, dos receptores TLR2 e TLR4 e das moléculas MyD88 e NLRP3 para o desenvolvimento da fibrose renal. / Involvement of different subtypes of macrophages and the contribution of soluble uric acid, the receptors TLR2 and TLR4 and MyD88 and NLRP3 molecules to the development of renal fibrosis.

Tárcio Teodoro Braga

16 June 2014

A doença renal crônica é uma doença mediada pelo sistema imune e caracterizada por fibrose. Camundongos deficientes em TLR2, TLR4, MyD88 e NLRP3 se mostraram protegidos frente ao dano renal e à deposição de colágeno após serem submetidos à obstrução unilateral do ureter (UUO). Além disso, os camundongos protegidos exibiram menor produção de citocinas relacionadas com um perfil imune Th2 e apresentaram menor acúmulo de macrófagos do subtipo M2. Inicialmente, creditamos aos macrófagos M2 o papel de macrófagos formadores de fibrose uma vez que tal subpopulação é encontrada em maior número aos sete dias após a UUO em animais WT, porém, vimos que os personagens centrais no desenvolvimento da fibrose são macrófagos M1, encontrados no início da lesão renal. Também vimos que o ácido úrico é a molécula capaz de induzir a troca de fenótipo de M1 para M2 ao longo da UUO, além de ser capaz de ativar a via do inflamassoma. O ácido úrico solúvel é liberado em um contexto de hipóxia e ativa o complexo do inflamassoma NLRP3 por mecanismos diferentes, mas complementares. / Chronic kidney disease is an immune mediated disease characterized by fibrosis development. The damaged tissue releases molecules such as soluble uric acid resulting from the degradation of extracellular matrix or dead cells, which activate TLR and NLR, leading to the translocation of MyD88 in many cell types. This modulation of the immune system interferes with the activation of different subtypes of macrophages and activity of CD4+ T cells, with the Th1/Th2 paradigm as a possible effector mechanism of fibrosis. TLR2, TLR4, MyD88, and NLRP3 deficient mice are protected against renal damage and collagen deposition after being submitted to unilateral ureteral obstruction (UUO), when compared to wild type animals. Moreover, protected mice exhibited less production of Th2 related cytokines and reduced accumulation of M2 macrophages. Initially, we hypothesized M2 macrophages are responsible for fibrosis formation since this subset is found in greater numbers seven days after UUO in WT mice, however, we observed the central characters on the development of fibrosis are M1 macrophages found in the onset of renal injury. These data were confirmed by the injection of Stat6 KO M1 macrophages into Rag deficient mice previously depleted of macrophages and subjected to UUO, in which we observed higher proteinuria and increased collagen deposition. We also observed that uric acid is able to induce the exchange of phenotype from M1 to M2 along the UUO, besides being able to activate the inflammasome pathway. The soluble uric acid is released in the context of hypoxia and activates the NLRP3 inflammasome complex by different, but complementary mechanisms. Therefore, the renal damage releases soluble uric acid, which signals via innate immune receptors, and the damage brings as a consequence the deposition of proteins in the renal interstitium, culminating in fibrosis.

Ácido úrico solúvel

Fibrose renal

Inflamassoma

Macrófagos

Resposta imune Th2

Inflammasome

Macrophages

Renal fibrosis

Soluble uric acid

Th2 immune response