Gout associated with reduced renal excretion of uric acid. Renal tubular disorder that nephrologists do not treat.

Gout is recurrent inflammatory arthritis caused by the deposition of monosodium urate crystals in the joints. The risk factors that predispose to suffering from gout include non-modifiable factors such as gender, age, ethnicity and genetics, and modifiable factors such as diet and lifestyle. It has been shown that the heritability of uric acid levels in the blood is greater than 30%, which indicates that genetics play a key role in these levels. Hyperuricaemia is often a consequence of reduced renal urate excretion since more than 70% is excreted by the kidneys, mainly through the proximal tubule. The mechanisms that explain that hyperuricaemia associated with reduced renal urate excretion is, to a large extent, a proximal renal tubular disorder, have begun to be understood following the identification of two genes that encode the URAT1 and GLUT9 transporters. When they are carriers of loss-of-function mutations, they explain the two known variants of renal tubular hypouricaemia. Some polymorphisms in these genes may have an opposite gain-of-function effect, with a consequent increase in urate reabsorption. Conversely, loss-of-function polymorphisms in other genes that encode transporters involved in urate excretion (ABCG2, ABCC4) can lead to hyperuricaemia. Genome-wide association study (GWAS) methods have made it possible to locate new gout-related loci associated with reduced renal urate excretion (NIPAL1, FAM35A).

La gota asociada a reducción de la excreción renal de ácido úrico. Esa tubulopatía que no tratamos los nefrólogos / Gout associated with reduced renal excretion of uric acid. Renal tubular disorder that nephrologists do not treat

La gota es una artritis inflamatoria recurrente provocada por el depósito de cristales de urato monosódico en las articulaciones. Entre los factores de riesgo que predisponen a padecer gota se encuentran aquellos no modificables como sexo, edad, raza y genética y los modificables como dieta y estilo de vida. Se ha indicado que la heredabilidad de los niveles de ácido úrico en sangre es superior al 30%, lo que indica que la genética tiene un papel clave en dichos niveles.La hiperuricemia es a menudo una consecuencia de la reducción de la excreción renal de urato, ya que más del 70% se excreta por el riñón, principalmente, por el túbulo proximal.Los mecanismos que explican que la hiperuricemia asociada a la reducción de la excreción renal de urato es, en gran medida, una tubulopatía proximal, se han empezado a conocer al saberse la existencia de dos genes que codifican los transportadores URAT1 y GLUT9 que, cuando son portadores de mutaciones de pérdida de función, explican las dos variantes conocidas de hipouricemia tubular renal.Algunos polimorfismos presentes en esos genes pueden tener un efecto contrario de ganancia de función, con la consecuencia de un incremento en la reabsorción de urato. A la inversa, polimorfismos de pérdida de función en otros genes que codifican trasportadores implicados en la excreción de urato (ABCG2, ABCC4) favorecen la hiperuricemia.Los métodos de asociación genómica amplia (GWAS) han permitido localizar nuevos locus relacionados con gota asociada a reducción de la excreción renal de urato (NIPAL1, FAM35A). (AU)

Gout is recurrent inflammatory arthritis caused by the deposition of monosodium urate crystals in the joints. The risk factors that predispose to suffering from gout include non-modifiable factors such as gender, age, ethnicity and genetics, and modifiable factors such as diet and lifestyle. It has been shown that the heritability of uric acid levels in the blood is greater than 30%, which indicates that genetics play a key role in these levels.Hyperuricaemia is often a consequence of reduced renal urate excretion since more than 70% is excreted by the kidneys, mainly through the proximal tubule.The mechanisms that explain that hyperuricaemia associated with reduced renal urate excretion is, to a large extent, a proximal renal tubular disorder, have begun to be understood following the identification of two genes that encode the URAT1 and GLUT9 transporters. When they are carriers of loss-of-function mutations, they explain the two known variants of renal tubular hypouricaemia.Some polymorphisms in these genes may have an opposite gain-of-function effect, with a consequent increase in urate reabsorption. Conversely, loss-of-function polymorphisms in other genes that encode transporters involved in urate excretion (ABCG2, ABCC4) can lead to hyperuricaemia.Genome-wide association study (GWAS) methods have made it possible to locate new gout-related loci associated with reduced renal urate excretion (NIPAL1, FAM35A). (AU)

[Renal involvement in monoclonal gammopathies]. / Compromiso renal en gammapatías monoclonales.

INTRODUCTION: The kidney is one of the organs most frequently affected by disease processes which produce monoclonal immunoglobins, therefore renal morphological and immunopathological alterations should be clearly recognized. OBJECTIVE: To describe the pathological features of renal involvement in monoclonal gammopathies. MATERIAL AND METHODS: A descriptive, retrospective and cross-sectional study of renal biopsies studied in a single center during a period of 14 years was carried out. RESULTS: 102 cases were included, of which 53% were male patients and the median age was 62.5 years (range 34 - 79). 97% of the biopsies were from native kidneys. The most frequent histopathological diagnosis (31.4%) was myeloma kidney, with kappa being the light chain most frequently deposited (65.6% of cases). AL amyloidosis was the second most common (29.4%) where the lambda chain predominated in 86.6%, followed by light chain deposition disease (20.6%) with the predominance of the kappa chain in 66.6%. CONCLUSIONS: The most frequent renal involvement due to monoclonal gammopathies was myeloma kidney with deposition of kappa light chains, followed by AL lambda amyloidosis; these diseases were found more frequently in patients over 50 years of age.

Compromiso renal en gammapatías monoclonales / Renal involvement in monoclonal gammopathies

Introducción: El riñón es uno de los órganos más comprometidos en enfermedades con producción de inmunoglobulinas monoclonales, por lo que es de gran importancia caracterizar muy bien las alteraciones morfológicas e inmunopatológicas en dicho compromiso. Objetivo: Describir las características del compromiso renal en gammapatías monoclonales desde una perspectiva anatomopatológica. Material y métodos: Se realizó un estudio descriptivo, retrospectivo y transversal, recolectándose biopsias renales estudiadas en un único centro durante un período de 14 años. Resultados: Se incluyeron 102 casos provenientes de 102 pacientes, el 53% de sexo masculino, la mediana de la edad fue 62,5 años (rango 34-79). El diagnóstico histopatológico más frecuente fue riñón de mieloma (31,4% de los casos), siendo kappa la cadena ligera más frecuentemente depositada (65,6% de casos), seguido de amiloidosis AL (29,4%), donde predominó la cadena lambda en un 86,6% y la enfermedad por depósitos de cadenas ligeras (20,6%) con predominio de la cadena kappa: 66,6%. El 97% de las biopsias fueron de riñón nativo. Conclusiones: El compromiso renal por gammapatías monoclonales más frecuente fue el riñón de mieloma con depósito de cadenas ligeras kappa, seguida de la amiloidosis AL lambda; estas enfermedades se encontraron con mayor frecuencia en pacientes mayores de 50 años de edad.(AU)

Introduction: The kidney is one of the organs most frequently affected by disease processes which produce monoclonal immunoglobins, therefore renal morphological and immunopathological alterations should be clearly recognized. Objective: To describe the pathological features of renal involvement in monoclonal gammopathies. Material and methods: A descriptive, retrospective and cross-sectional study of renal biopsies studied in a single center during a period of 14 years was carried out. Results: 102 cases were included, of which 53% were male patients and the median age was 62.5 years (range 34 - 79). 97% of the biopsies were from native kidneys. The most frequent histopathological diagnosis (31.4%) was myeloma kidney, with kappa being the light chain most frequently deposited (65.6% of cases). AL amyloidosis was the second most common (29.4%) where the lambda chain predominated in 86.6%, followed by light chain deposition disease (20.6%) with the predominance of the kappa chain in 66.6%. Conclusions: The most frequent renal involvement due to monoclonal gammopathies was myeloma kidney with deposition of kappa light chains, followed by AL lambda amyloidosis; these diseases were found more frequently in patients over 50 years of age.(AU)

Gout associated with reduced renal excretion of uric acid. Renal tubular disorder that nephrologists do not treat. / La gota asociada a reducción de la excreción renal de ácido úrico. Esa tubulopatía que no tratamos los nefrólogos.

Gout is recurrent inflammatory arthritis caused by the deposition of monosodium urate crystals in the joints. The risk factors that predispose to suffering from gout include non-modifiable factors such as gender, age, ethnicity and genetics, and modifiable factors such as diet and lifestyle. It has been shown that the heritability of uric acid levels in the blood is greater than 30%, which indicates that genetics play a key role in these levels. Hyperuricaemia is often a consequence of reduced renal urate excretion since more than 70% is excreted by the kidneys, mainly through the proximal tubule. The mechanisms that explain that hyperuricaemia associated with reduced renal urate excretion is, to a large extent, a proximal renal tubular disorder, have begun to be understood following the identification of two genes that encode the URAT1 and GLUT9 transporters. When they are carriers of loss-of-function mutations, they explain the two known variants of renal tubular hypouricaemia. Some polymorphisms in these genes may have an opposite gain-of-function effect, with a consequent increase in urate reabsorption. Conversely, loss-of-function polymorphisms in other genes that encode transporters involved in urate excretion (ABCG2, ABCC4) can lead to hyperuricaemia. Genome-wide association study (GWAS) methods have made it possible to locate new gout-related loci associated with reduced renal urate excretion (NIPAL1, FAM35A).