Estudo da expressão das enzimas esteroidogênicas e dos resceptores aberrantes ectópicos na hiperplasia macronodular adrenal primária de pacientes com e sem mutação no gene ARMC5. / Study of the expression steroidogenic enzymes and ectopic receptors in macronodular primary adrenal hyperplasia with or without mutation in the ARMC5 gene.

Conceição, Bárbara Brito da

10 October 2018

A hiperplasia adrenocortical macronodular primária (PMAH) é uma causa rara de Síndrome de Cushing (SC). Apresenta como características macronódulos funcionantes em ambas as glândulas suprarrenais e uma produção variável de cortisol. Os nódulos apresentam uma produção ectópica de hormônio adrenocorticotrófico (ACTH) tornando a doença independente do ACTH hipofisário. Estudos independentes mostraram que mutações germinativas no gene armadillo repeat cointaining 5 (ARMC5) são uma causa frequente de PMAH. Além dessa mutação parece haver a participação de receptores hormonais ectópicos no córtex suprarrenal, que estimulariam a esteroidogênese e a hiperplasia da glândula. No entanto, os estudos sobre a relação entre o ARMC5 e a participação dos receptores aberrantes na produção de cortisol são incipientes. Portanto, temos como hipótese que as alterações no gene ARMC5 podem estar envolvidas no padrão celular e funcional das células que compõem os nódulos hiperplásicos na PMAH. Desta forma, nossos objetivos foram analisar: 1) a proporção de células espongiformes e compactas em cortes corados com hematoxilina e eosina; 2) a expressão gênica, nas células espongiformes e proteica de ambas as células, do ARMC5, das enzimas esteroidogênicas StAR, 3βHSD2 e CYP17A1, dos receptores da vasopressina (AVP1AR), serotonina (5HT4R) e do peptídeo inibidor gástrico (GIPR) e do ACTH ectópico e 3) a expressão do antígeno de proliferação celular, a proteína PCNA, para análise do padrão de proliferação em cortes histológicos de nódulos de hiperplasias de pacientes que apresentam mutações germinativas, mutações germinativas e somáticas ou não mutação no gene ARMC5. Os resultados mostraram que os nódulos hiperplásicos são compostos, na sua maioria, por células espongiformes, cujo padrão foi independente da presença de mutação. A expressão do ARMC5 nas células espongiformes foi maior em pacientes com mutação, e os receptores ectópicos apresentaram uma expressão maior no tecido de PMAH em relação à adrenal normal. A reação de imunoistoquimica revelou células positivas para a proteína ARMC5 e StAR, em ambos os tipos celulares, enquanto a enzima 3βHSD2 foi predominante nas células espongiformes e a enzima CYP17A1 nas células compactas. A expressão de AVP1AR, 5HT4R, e do ACTH ectópico foi positiva em ambos os tipos celulares e independente da presença ou não da mutação no gene ARMC5, bem como a expressão da proteína PCNA. Portanto, nossos resultados sugerem que a presença ou não de mutações no gene ARMC5 nas hiperplasias não está envolvida no padrão celular das células que compõem os nódulos. O mesmo para a presença dos receptores AVP1AR, 5HT4R e GIPR, do ACTH ectópico e da proteína PCNA. Como conclusão, os resultados dos parâmetros analisados sugerem que as alterações no gene ARMC5 não estão envolvidas no padrão celular e funcional das células que compõem os nódulos hiperplásicos na PMAH, e podem ter o mesmo grau de importância na formação desses nódulos. / The primary macronodular adrenal hyperplasia (PMAH) is a rare cause of Cushing\'s Syndrome (SC). It is characterized as macronodules in the adrenal gland and by variable production of cortisol. The nodules present an ectopic production of adrenocorticotrophic hormone (ACTH) pituitary-independent. Several studies showed that the germ mutations in armadillo repeat cointaining 5 (ARMC5) are a frequent cause of PMAH. In addition, there is a participation of ectopic hormonal receptors in the adrenal cortex, which promotes steroidogenesis and hyperplasia of the gland. However, studies on a relationship between ARMC5 and aberrant receptor involvement in cortisol production are incipient. Therefore, our hypothesis is that ARMC5 gene may be involved in the cellular and functional pattern of the cells in PMAH. Thus, the objectives were to analyzed: 1) the proportion of spongiform and compact cells in sections stained with hematoxylin and eosin; 2) the gene expression in the spongiform cells and the gene and protein expression in both cells types of the ARMC5, the steroidogenic enzymes StAR ,3βHSD2 e CYP17A1, and the ectopic receptors of vasopressin (AVP1AR), serotonin (5HT4R) and gastric inhibitory peptide (GIPR) also the ACTH ectopic and 3) the proliferating cell nuclear antigen (PCNA) that shows the proliferation pattern in patients PMAH that present germline, germinative and somatic mutations or no mutation in ARMC5 gene. We showed that the hyperplastic nodules are mainly composed by spongiform cells independent of the ARMC5 mutation. The expression of ARMC5 in spongiform cells was higher in patients with mutation, and PMAH tissue have a higher expression of the ectopic receptors when compared with normal adrenal. With the immunohistochemical labeling, we observed the ARMC5 and StAR protein expression in both cell types. The 3βHSD2 enzyme was predominant in spongiform cells and the CYP17A1 enzyme in the compact cells. The expression of AVP1AR, 5HT4R, and ectopic ACTH was positive in both cell types regardless of the presence of the ARMC5 mutation, as well as the expression of the PCNA protein. Therefore, the results suggest that the mutation in ARMC5 is not involved with spongiform and compact cell function. Moreover, the presence of the AVP1AR, 5HT4R and GIPR receptors, the ectopic ACTH and the PCNA protein was not related to the gene mutation. In conclusion, the alterations in the ARMC5 gene are not involved in the cell functional pattern in the PMAH and in the onset of the nodules.

ARMC5

ARMC5

Enzimas Esterodogênicas

Primary Macronodular Adrenal Hyperplasia

Receptores Ectópicos

Steroidogenic Enzymes, Ectopic Receptors

Aspectos clínicos e moleculares da hiperplasia adrenal macronodular independente de ACTH em sua forma familial / Clinical and molecular aspects of familial ACTH-independent macronodular adrenal hyperplasia

Alencar, Guilherme Asmar

14 October 2013

INTRODUÇÃO: A hiperplasia adrenal macronodular independente de ACTH (AIMAH) é uma doença rara, caracterizada pela presença de macronódulos funcionantes nas adrenais e por uma produção aumentada, autônoma e sustentada de cortisol. Constitui uma causa incomum de síndrome de Cushing (SC). A forma esporádica da doença parece ser a mais frequente, no entanto, se desconhece a real prevalência de sua forma familial. Apesar de ser uma entidade clínica conhecida há quase 50 anos, o processo fisiopatológico que culminaria com a AIMAH, as alterações genéticas predisponentes e aspectos clínicos, laboratoriais e radiológicos relevantes da doença ainda não foram elucidados de forma clara. O diagnóstico recente de uma grande família portadora da doença viabilizou a realização do presente trabalho. OBJETIVOS: 1) Caracterizar a evolução da AIMAH em sua forma familial, correlacionando as manifestações clínicas, os dados laboratoriais e os achados radiológicos; 2) investigar a possível associação entre a AIMAH e a ocorrência de meningiomas intracranianos; 3) avaliar a atividade metabólica das adrenais hiperplasiadas na AIMAH; 4) definir o padrão de herança genética da doença na família estudada; e 5) mapear regiões cromossômicas e loci potencialmente relacionados à etiologia genética da AIMAH familial. MÉTODOS: 96 membros da família estudada foram inicialmente submetidos a uma avaliação clínica e laboratorial pormenorizada. Em seguida, foram realizados exames de tomografia computadorizada para a caracterização radiológica das adrenais. Exames de ressonância magnética e de tomografia por emissão de pósitrons com fluordesoxiglicose marcada, acoplada à tomografia computadorizada (18F-FDGPET/CT) foram realizados em pacientes com as formas familial e esporádica da doença para, respectivamente, investigar a presença de meningiomas intracranianos e caracterizar a atividade metabólica das adrenais hiperplasiadas. Foram também realizados testes in vivo para a pesquisa de receptores hormonais aberrantes nos pacientes com a forma familial da doença. Em uma outra etapa do estudo, diferentes técnicas de biologia molecular foram empregadas para a investigação da etiologia genética da AIMAH familial. Desta forma, realizou-se: o sequenciamento do gene do receptor do ACTH (MC2R), um estudo de ligação genética utilizando microssatélites específicos, um estudo de ligação genética em escala genômica utilizando polimorfismos de nucleotídeo único (SNPs) e o sequenciamento de genes suspeitos. RESULTADOS: A avaliação dos indivíduos pertencentes à genealogia permitiu o diagnóstico de 15 casos da doença (7 mulheres e 8 homens) em três gerações consecutivas. A AIMAH era transmitida para as gerações subsequentes tanto pelo sexo masculino como feminino e acometia cerca de metade dos irmãos em alguns segmentos da família. A idade média ao diagnóstico da doença foi de 52,8 +-11,3 anos (32 a 74 anos) e cerca de 86% (12/14) desses pacientes apresentavam SC subclínica. As dosagens do cortisol salivar à meia-noite e do cortisol em urina de 24 horas demonstraram baixa sensibilidade (21% e 14%, respectivamente) para o diagnóstico da doença em sua forma familial. O valor do ACTH plasmático encontrava-se baixo ( < 10 pg/mL) em 46% (5/11) dos pacientes doentes. Em cerca de 62% (8/13) dos casos, foi demonstrada uma redução do valor sérico do sulfato de desidroepiandrosterona (SDHEA). Por regressão logística simples, foi observado que a probabilidade (odds ratio) de um indivíduo apresentar a doença na família era maior diante da presença de pletora, após o diagnóstico de diabetes ou pré-diabetes ou diante do relato de ganho ponderal progressivo. O espessamento de ambas as adrenais associado à presença de nódulos bilaterais foi o achado radiológico mais frequente na forma familial da doença. No entanto, em um terço dos pacientes (5/15) foram encontradas alterações radiológicas em somente uma das adrenais. Durante os testes in vivo para pesquisa de receptores hormonais aberrantes, foram observadas, com frequência, respostas distintas entre os indivíduos doentes pertencentes à família. Nos pacientes submetidos ao exame de ressonância magnética, foram demonstradas imagens típicas de meningiomas intracranianos em um terço (5/15) dos casos. No exame 18F-FDG-PET/CT, foi observado um aumento da atividade metabólica das adrenais hiperplasiadas, tanto nos pacientes com SC manifesta como naqueles com a forma subclínica da doença. O estudo molecular permitiu delimitar nos cromossomos 16 e 11 algumas regiões genômicas potencialmente relacionadas à etiologia genética da AIMAH familial. O sequenciamento de alguns genes suspeitos (GPR56, GPR97 e GPR114), localizados nessas regiões, não demonstrou a presença de mutações. CONCLUSÕES: Na genealogia estudada, o padrão de transmissão da AIMAH foi autossômico dominante, e a SC subclínica foi a forma mais frequente de manifestação da doença. O teste de supressão com 1 mg de dexametasona via oral à meia-noite demonstrou ser o exame laboratorial de escolha para a avaliação inicial dos pacientes suspeitos de apresentarem AIMAH familial, em função, sobretudo, da baixa sensibilidade do cortisol salivar à meia-noite e do cortisol urinário para o diagnóstico da doença. Valores normais do ACTH plasmático foram um achado laboratorial frequente na AIMAH familial e valores baixos do SDHEA sérico demonstraram ser um indício relativamente precoce da SC subclínica associada à doença. Diferentes padrões radiológicos foram demonstrados nas tomografias das adrenais dos pacientes com AIMAH familial, não sendo infrequente a presença de assimetria entre as duas glândulas. Os resultados dos testes in vivo para a pesquisa de receptores hormonais aberrantes foram mais condizentes com a hipótese de que a expressão desses receptores seria um epifenômeno do processo fisiopatológico, resultante da proliferação e desdiferenciação celular. Uma alta prevalência de meningiomas intracranianos foi observada nos pacientes com AIMAH, tanto na forma familial da doença como na forma esporádica. Demonstrou-se também, pela primeira vez, que as adrenais na AIMAH podem exibir uma captação aumentada de 18F-FDG no exame de PET/CT, de forma semelhante às metástases e aos carcinomas da glândula. Por fim, foram delimitadas no cromossomo 16 (16p12.1, 16p11.2, 16q12.1, 16q13 e 16q21) e no cromossomo 11 (11q23.1) as principais regiões do genoma suspeitas de estarem ligadas à etiologia genética da AIMAH familial (genoma de referência: NCBI36/hg18) / INTRODUCTION: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is a rare disease characterized by functioning adrenal macronodules and increased, autonomous and sustained cortisol production. This condition is an uncommon cause of Cushing\'s syndrome (CS). While the sporadic form of the disease appears to be the most frequent, the true prevalence of its familial form is unknown. Despite being a known clinical entity for almost 50 years, the pathophysiological process that leads to AIMAH, the predisposing genetic alterations and important clinical, laboratory and radiological aspects of the disease have not been fully clarified. The recent identification of a large group of relatives with familial AIMAH allowed the accomplishment of the present study. OBJECTIVES: The following were the aims of this study: 1) characterize the development of familial AIMAH through correlations between clinical manifestations, laboratory data and radiological findings; 2) investigate the possible association between AIMAH and the occurrence of intracranial meningioma; 3) characterize the metabolic activity of the adrenal glands in this disease; 4) define the inheritance pattern of the disease in the family studied; and 5) map chromosomal regions and loci potentially related to the genetic etiology of familial AIMAH. METHODS: 96 members of the family studied were initially subjected to a detailed clinical and laboratory evaluation. Computed tomography (CT) scans were performed for the radiological characterization of the adrenal glands. Magnetic resonance imaging scans and 18F-fluorodeoxyglucose positron emission tomography/computed tomography (18F-FDG-PET/CT) scans were performed on patients with both forms of the disease (familial and sporadic) to investigate the presence of intracranial meningioma and characterize the metabolic activity of the adrenal glands, respectively. In vivo studies for aberrant hormone receptors were also conducted on those patients with familial AIMAH. In another phase of the study, different molecular biology techniques were employed to investigate the genetic etiology of familial AIMAH. For such, sequencing of the ACTH receptor gene (MC2R), a linkage study using specific microsatellite markers, a single nucleotide polymorphism (SNP)-based genome-wide linkage study and the sequencing of suspect genes were performed. RESULTS: The evaluation of the family revealed the diagnosis of 15 cases of the disease (7 women and 8 men) in three consecutive generations. AIMAH was transmitted to subsequent generations by both genders and half of the siblings were affected in some segments of the family. Mean age at diagnosis was 52.8 +-11.3 years (range: 32 to 74 years) and about 86% (12/14) of the patients exhibited subclinical CS. Both midnight salivary cortisol and 24-hour urinary cortisol demonstrated low sensitivity (21% and 14%, respectively) for the diagnosis of familial AIMAH. Plasma ACTH levels were low ( < 10 pg/ml) in 46% (5/11) of patients with the disease. In about 62% (8/13) of cases, serum dehydroepiandrosterone sulphate (DHEAS) levels were below the normal range. Simple logistic regression models revealed that the probability (odds ratio) of an individual having the disease in the family was greater in the presence of plethora, progressive weight gain or after the diagnosis of diabetes or prediabetes. Adrenal thickening associated with the presence of bilateral nodules was the most common radiological finding in familial AIMAH. However, radiological abnormalities were found in only one of the adrenal glands in one third of the patients (5/15). Throughout the in vivo studies for aberrant hormone receptors, distinct responses were frequently observed among the individuals with familial AIMAH. One third (5/15) of the patients who underwent magnetic resonance imaging scans had typical images of intracranial meningiomas. The 18F-FDG-PET/CT scan revealed increased metabolic activity of the hyperplastic adrenals in patients with both overt and subclinical CS. The molecular studies delimited genomic regions on chromosomes 16 and 11 potentially related to the genetic cause of familial AIMAH. Some suspected genes (GPR56, GPR97 and GPR114), located in these genomic regions, were sequenced, but no mutations were found. CONCLUSIONS: In the extended family studied, AIMAH followed an autosomal dominant pattern of inheritance and subclinical CS was the most common presentation of the disease. The 1 mg overnight dexamethasone suppression test proved to be the screening test of choice for the initial evaluation of patients suspected to have familial AIMAH, due mainly to the low sensitivity of midnight salivary cortisol and 24-hour urinary cortisol as screening tests. A normal level of plasma ACTH was a common laboratory finding in familial AIMAH. Low serum levels of DHEAS proved to be a relatively early finding associated with the subclinical CS determined by the disease. Adrenal CT scans revealed different radiological patterns among patients with familial AIMAH, with a fairly frequent rate of asymmetry between glands. The distinct responses observed throughout the in vivo studies for aberrant hormone receptors, among family members, favor the hypothesis that these receptors may be an epiphenomenon resulting from cell proliferation and dedifferentiation. An increased prevalence of intracranial meningioma was demonstrated in both the familial and sporadic forms of AIMAH. For the first time, it was shown that AIMAH may exhibit increased 18FFDG uptake on the PET/CT scan, similarly to adrenal carcinoma and metastasis. The main genomic regions potentially associated with familial AIMAH were delimited on chromosome 16 (16p12.1, 16p11.2, 16q12.1, 16q13 and 16q21) and chromosome 11 (11q23.1) (reference genome: NCBI36/hg18)

Cushing's syndrome /genetics

Cushing's syndrome/diagnosis

Cushing's syndrome/etiology

Genetic linkage

Genotyping techniques

Ligação genética

Meningioma

Meningioma

Polimorfismo de nucleotídeo único

Polymorphism single nucleotide

Receptores de superfície celular

Receptors cell surface

Signs and symptoms

Sinais e sintomas

Síndrome de Cushing/diagnóstico

Síndrome de Cushing/etiologia

Síndrome de Cushing/genética

Técnicas de genotipagem

Tomografia

Tomography

Aspectos clínicos e moleculares da hiperplasia adrenal macronodular independente de ACTH em sua forma familial / Clinical and molecular aspects of familial ACTH-independent macronodular adrenal hyperplasia

Guilherme Asmar Alencar

14 October 2013

INTRODUÇÃO: A hiperplasia adrenal macronodular independente de ACTH (AIMAH) é uma doença rara, caracterizada pela presença de macronódulos funcionantes nas adrenais e por uma produção aumentada, autônoma e sustentada de cortisol. Constitui uma causa incomum de síndrome de Cushing (SC). A forma esporádica da doença parece ser a mais frequente, no entanto, se desconhece a real prevalência de sua forma familial. Apesar de ser uma entidade clínica conhecida há quase 50 anos, o processo fisiopatológico que culminaria com a AIMAH, as alterações genéticas predisponentes e aspectos clínicos, laboratoriais e radiológicos relevantes da doença ainda não foram elucidados de forma clara. O diagnóstico recente de uma grande família portadora da doença viabilizou a realização do presente trabalho. OBJETIVOS: 1) Caracterizar a evolução da AIMAH em sua forma familial, correlacionando as manifestações clínicas, os dados laboratoriais e os achados radiológicos; 2) investigar a possível associação entre a AIMAH e a ocorrência de meningiomas intracranianos; 3) avaliar a atividade metabólica das adrenais hiperplasiadas na AIMAH; 4) definir o padrão de herança genética da doença na família estudada; e 5) mapear regiões cromossômicas e loci potencialmente relacionados à etiologia genética da AIMAH familial. MÉTODOS: 96 membros da família estudada foram inicialmente submetidos a uma avaliação clínica e laboratorial pormenorizada. Em seguida, foram realizados exames de tomografia computadorizada para a caracterização radiológica das adrenais. Exames de ressonância magnética e de tomografia por emissão de pósitrons com fluordesoxiglicose marcada, acoplada à tomografia computadorizada (18F-FDGPET/CT) foram realizados em pacientes com as formas familial e esporádica da doença para, respectivamente, investigar a presença de meningiomas intracranianos e caracterizar a atividade metabólica das adrenais hiperplasiadas. Foram também realizados testes in vivo para a pesquisa de receptores hormonais aberrantes nos pacientes com a forma familial da doença. Em uma outra etapa do estudo, diferentes técnicas de biologia molecular foram empregadas para a investigação da etiologia genética da AIMAH familial. Desta forma, realizou-se: o sequenciamento do gene do receptor do ACTH (MC2R), um estudo de ligação genética utilizando microssatélites específicos, um estudo de ligação genética em escala genômica utilizando polimorfismos de nucleotídeo único (SNPs) e o sequenciamento de genes suspeitos. RESULTADOS: A avaliação dos indivíduos pertencentes à genealogia permitiu o diagnóstico de 15 casos da doença (7 mulheres e 8 homens) em três gerações consecutivas. A AIMAH era transmitida para as gerações subsequentes tanto pelo sexo masculino como feminino e acometia cerca de metade dos irmãos em alguns segmentos da família. A idade média ao diagnóstico da doença foi de 52,8 +-11,3 anos (32 a 74 anos) e cerca de 86% (12/14) desses pacientes apresentavam SC subclínica. As dosagens do cortisol salivar à meia-noite e do cortisol em urina de 24 horas demonstraram baixa sensibilidade (21% e 14%, respectivamente) para o diagnóstico da doença em sua forma familial. O valor do ACTH plasmático encontrava-se baixo ( < 10 pg/mL) em 46% (5/11) dos pacientes doentes. Em cerca de 62% (8/13) dos casos, foi demonstrada uma redução do valor sérico do sulfato de desidroepiandrosterona (SDHEA). Por regressão logística simples, foi observado que a probabilidade (odds ratio) de um indivíduo apresentar a doença na família era maior diante da presença de pletora, após o diagnóstico de diabetes ou pré-diabetes ou diante do relato de ganho ponderal progressivo. O espessamento de ambas as adrenais associado à presença de nódulos bilaterais foi o achado radiológico mais frequente na forma familial da doença. No entanto, em um terço dos pacientes (5/15) foram encontradas alterações radiológicas em somente uma das adrenais. Durante os testes in vivo para pesquisa de receptores hormonais aberrantes, foram observadas, com frequência, respostas distintas entre os indivíduos doentes pertencentes à família. Nos pacientes submetidos ao exame de ressonância magnética, foram demonstradas imagens típicas de meningiomas intracranianos em um terço (5/15) dos casos. No exame 18F-FDG-PET/CT, foi observado um aumento da atividade metabólica das adrenais hiperplasiadas, tanto nos pacientes com SC manifesta como naqueles com a forma subclínica da doença. O estudo molecular permitiu delimitar nos cromossomos 16 e 11 algumas regiões genômicas potencialmente relacionadas à etiologia genética da AIMAH familial. O sequenciamento de alguns genes suspeitos (GPR56, GPR97 e GPR114), localizados nessas regiões, não demonstrou a presença de mutações. CONCLUSÕES: Na genealogia estudada, o padrão de transmissão da AIMAH foi autossômico dominante, e a SC subclínica foi a forma mais frequente de manifestação da doença. O teste de supressão com 1 mg de dexametasona via oral à meia-noite demonstrou ser o exame laboratorial de escolha para a avaliação inicial dos pacientes suspeitos de apresentarem AIMAH familial, em função, sobretudo, da baixa sensibilidade do cortisol salivar à meia-noite e do cortisol urinário para o diagnóstico da doença. Valores normais do ACTH plasmático foram um achado laboratorial frequente na AIMAH familial e valores baixos do SDHEA sérico demonstraram ser um indício relativamente precoce da SC subclínica associada à doença. Diferentes padrões radiológicos foram demonstrados nas tomografias das adrenais dos pacientes com AIMAH familial, não sendo infrequente a presença de assimetria entre as duas glândulas. Os resultados dos testes in vivo para a pesquisa de receptores hormonais aberrantes foram mais condizentes com a hipótese de que a expressão desses receptores seria um epifenômeno do processo fisiopatológico, resultante da proliferação e desdiferenciação celular. Uma alta prevalência de meningiomas intracranianos foi observada nos pacientes com AIMAH, tanto na forma familial da doença como na forma esporádica. Demonstrou-se também, pela primeira vez, que as adrenais na AIMAH podem exibir uma captação aumentada de 18F-FDG no exame de PET/CT, de forma semelhante às metástases e aos carcinomas da glândula. Por fim, foram delimitadas no cromossomo 16 (16p12.1, 16p11.2, 16q12.1, 16q13 e 16q21) e no cromossomo 11 (11q23.1) as principais regiões do genoma suspeitas de estarem ligadas à etiologia genética da AIMAH familial (genoma de referência: NCBI36/hg18) / INTRODUCTION: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is a rare disease characterized by functioning adrenal macronodules and increased, autonomous and sustained cortisol production. This condition is an uncommon cause of Cushing\'s syndrome (CS). While the sporadic form of the disease appears to be the most frequent, the true prevalence of its familial form is unknown. Despite being a known clinical entity for almost 50 years, the pathophysiological process that leads to AIMAH, the predisposing genetic alterations and important clinical, laboratory and radiological aspects of the disease have not been fully clarified. The recent identification of a large group of relatives with familial AIMAH allowed the accomplishment of the present study. OBJECTIVES: The following were the aims of this study: 1) characterize the development of familial AIMAH through correlations between clinical manifestations, laboratory data and radiological findings; 2) investigate the possible association between AIMAH and the occurrence of intracranial meningioma; 3) characterize the metabolic activity of the adrenal glands in this disease; 4) define the inheritance pattern of the disease in the family studied; and 5) map chromosomal regions and loci potentially related to the genetic etiology of familial AIMAH. METHODS: 96 members of the family studied were initially subjected to a detailed clinical and laboratory evaluation. Computed tomography (CT) scans were performed for the radiological characterization of the adrenal glands. Magnetic resonance imaging scans and 18F-fluorodeoxyglucose positron emission tomography/computed tomography (18F-FDG-PET/CT) scans were performed on patients with both forms of the disease (familial and sporadic) to investigate the presence of intracranial meningioma and characterize the metabolic activity of the adrenal glands, respectively. In vivo studies for aberrant hormone receptors were also conducted on those patients with familial AIMAH. In another phase of the study, different molecular biology techniques were employed to investigate the genetic etiology of familial AIMAH. For such, sequencing of the ACTH receptor gene (MC2R), a linkage study using specific microsatellite markers, a single nucleotide polymorphism (SNP)-based genome-wide linkage study and the sequencing of suspect genes were performed. RESULTS: The evaluation of the family revealed the diagnosis of 15 cases of the disease (7 women and 8 men) in three consecutive generations. AIMAH was transmitted to subsequent generations by both genders and half of the siblings were affected in some segments of the family. Mean age at diagnosis was 52.8 +-11.3 years (range: 32 to 74 years) and about 86% (12/14) of the patients exhibited subclinical CS. Both midnight salivary cortisol and 24-hour urinary cortisol demonstrated low sensitivity (21% and 14%, respectively) for the diagnosis of familial AIMAH. Plasma ACTH levels were low ( < 10 pg/ml) in 46% (5/11) of patients with the disease. In about 62% (8/13) of cases, serum dehydroepiandrosterone sulphate (DHEAS) levels were below the normal range. Simple logistic regression models revealed that the probability (odds ratio) of an individual having the disease in the family was greater in the presence of plethora, progressive weight gain or after the diagnosis of diabetes or prediabetes. Adrenal thickening associated with the presence of bilateral nodules was the most common radiological finding in familial AIMAH. However, radiological abnormalities were found in only one of the adrenal glands in one third of the patients (5/15). Throughout the in vivo studies for aberrant hormone receptors, distinct responses were frequently observed among the individuals with familial AIMAH. One third (5/15) of the patients who underwent magnetic resonance imaging scans had typical images of intracranial meningiomas. The 18F-FDG-PET/CT scan revealed increased metabolic activity of the hyperplastic adrenals in patients with both overt and subclinical CS. The molecular studies delimited genomic regions on chromosomes 16 and 11 potentially related to the genetic cause of familial AIMAH. Some suspected genes (GPR56, GPR97 and GPR114), located in these genomic regions, were sequenced, but no mutations were found. CONCLUSIONS: In the extended family studied, AIMAH followed an autosomal dominant pattern of inheritance and subclinical CS was the most common presentation of the disease. The 1 mg overnight dexamethasone suppression test proved to be the screening test of choice for the initial evaluation of patients suspected to have familial AIMAH, due mainly to the low sensitivity of midnight salivary cortisol and 24-hour urinary cortisol as screening tests. A normal level of plasma ACTH was a common laboratory finding in familial AIMAH. Low serum levels of DHEAS proved to be a relatively early finding associated with the subclinical CS determined by the disease. Adrenal CT scans revealed different radiological patterns among patients with familial AIMAH, with a fairly frequent rate of asymmetry between glands. The distinct responses observed throughout the in vivo studies for aberrant hormone receptors, among family members, favor the hypothesis that these receptors may be an epiphenomenon resulting from cell proliferation and dedifferentiation. An increased prevalence of intracranial meningioma was demonstrated in both the familial and sporadic forms of AIMAH. For the first time, it was shown that AIMAH may exhibit increased 18FFDG uptake on the PET/CT scan, similarly to adrenal carcinoma and metastasis. The main genomic regions potentially associated with familial AIMAH were delimited on chromosome 16 (16p12.1, 16p11.2, 16q12.1, 16q13 and 16q21) and chromosome 11 (11q23.1) (reference genome: NCBI36/hg18)

Ligação genética

Meningioma

Polimorfismo de nucleotídeo único

Receptores de superfície celular

Sinais e sintomas

Síndrome de Cushing/diagnóstico

Síndrome de Cushing/etiologia

Síndrome de Cushing/genética

Técnicas de genotipagem

Tomografia

Cushing's syndrome /genetics

Cushing's syndrome/diagnosis

Cushing's syndrome/etiology

Genetic linkage

Genotyping techniques

Meningioma

Polymorphism single nucleotide

Receptors cell surface

Signs and symptoms

Tomography

Identification des gènes responsables des hyperplasies surrénaliennes macronodulaires bilatérales familiales avec récepteurs aberrants

Magne, Fabien

08 1900

La majorité des hyperplasies macronodulaires bilatérales des surrénales avec syndrome de Cushing ACTH-indépendant (AIMAH) est due à l’expression aberrante de divers récepteurs hormonaux au niveau du cortex surrénalien. Les gènes responsables des AIMAH familiales avec récepteurs aberrants n’ont pas été identifiés. Le but de ce projet est de les identifier. Une étude de liaison, visant à identifier la ou les régions du génome comprenant le ou les gènes pouvant être en cause dans les AIMAH familiales, a été réalisée en utilisant l’ADN des membres d’une famille (10 malades et 7 sains) originaire du Québec, atteinte d’AIMAH et syndrome de Cushing et caractérisée par l’expression des récepteurs β-adrénergique et V1-vasopressine. Diverses régions chromosomiques entre les personnes atteintes et non-atteintes de la famille ont été soulignées. Un total de 707453 SNPs a été obtenu, et après analyse statistique, 159 SNPs significatifs, pouvant être associés au phénotype, ont été mis en évidence entre les deux groupes. Il a été constaté que la majorité de ces SNPs se situaient sur les régions chromosomiques 1q32.1 et 16q12.2. Une étude du transcriptome a aussi été réalisée en utilisant l’ADN des tumeurs de deux patients de la famille, ainsi que l’ADN d'autres tumeurs surrénaliennes. Les analyses statistiques ont permis d’identifier 15 gènes susceptibles d’être reliés à la maladie (11 surexprimés et 4 sous-exprimés). En utilisant les données de ces deux études, nous avons ciblé six gènes du chromosome 1 (ATP2B4, PPP1R12B, SOX13, CACNA1S, ADORA1et PHLDA3), un du chromosome 16 (CHD9) et un du chromosome 13 (SPRY2), afin de rechercher la présence de mutations. Le séquençage n’a révélé aucun changement de nucléotide dans les gènes PPP1R12B et SOX13. Dans les gènes ATP2B4, CACNA1S, ADORA1et PHLDA3, le séquençage a révélé des changements de nucléotides n’entrainant soit pas de changement d’acide aminé soit un changement d’acide aminé jugé « non pertinent », du fait qu’il ne permettait pas de différencier les sujets sains des sujets atteints. Pour ce qui est de CHD9 et SPRY2, le séquençage a permis d’identifier des changements de nucléotides entrainant des changements d’acides aminés de façon plus fréquente chez les sujets atteints par rapport aux sujets sains. En conclusion, nos travaux nous ont donc permis d’identifier, par étude de liaison et par analyse du transcriptome, des gènes candidats qui pourraient être responsables de cette pathologie. Le séquençage de ces gènes candidats a révélé des mutations de CHD9 et SPRY2. Ces résultats s’avèrent prometteurs puisque ces deux gènes produisent des protéines impliquées dans le remodelage de la chromatine et dans la régulation de la signalisation des protéines kinases. Le phénotypage et le génotypage des patients atteints doivent être poursuivis pour vérification. / The majority of ACTH-independent macronodular adrenal hyperplasia with Cushing's syndrome (AIMAH) is due to the aberrant expression of various receptors in the adrenal cortex. The genes responsible for familial AIMAH with aberrant receptors have not been identified. The aim of this project is to characterize them. A linkage study to identify the region or regions of the genome comprising the gene or genes that may be involved in familial AIMAH was performed using DNA of family members (10 affected and 7 non affected) born in Quebec and harboring AIMAH and Cushing's syndrome, under the aberrant regulation of B-adrenergic and V1-vasopressin receptors. Various chromosomal regions between patients and non-affected family were highlighted. A total of 707,453 SNPs were obtained, and after statistical analysis, 159 significant SNPs, possibly associated with phenotype, were found between the two groups. It was found that the majority of these SNPs were located on chromosomal regions 1q32.1 and 16q12.2. A transcriptome analysis was conducted using DNA from tumours of two patients of the family, as well as DNA from other adrenal tumours; Statistical analysis identified 15 genes that may be linked to disease (11 up-regulated and 4 under-expressed). Using data from these two studies, we identified six genes on chromosome 1 (ATP2B4, PPP1R12B, SOX13, ADORA1, CACNA1S and PHLDA3), one on chromosome 16 (CHD9) and one on chromosome 13 (SPRY2), to investigate the presence of mutations. The sequencing revealed no nucleotide changes in gene PPP1R12B and SOX13. In ATP2B4, CACNA1S, ADORA1 and PHLDA3, the sequencing not revealed nucleotides changes leading to either amino acid changes or an amino acid changes considered “not-relevant”, because they do not differentiate healthy individuals from affected. The sequencing of CHD9 and SPRY2 identified nucleotide changes causing amino acid changes more frequently in patients compared to healthy subjects. In conclusion, our work has therefore identified by linkage analysis and DNA microarray candidate genes that can be responsible to this disease, and mutations in two of these genes, CHD9 and SPRY2. These results are promising because these genes produce proteins involved in chromatin remodeling and regulation of signaling protein kinases. Phenotyping and genotyping of patients should be pursued further.

Glandes surrénales

Cortex surrénalien

Tumeurs cortico-surrénaliennes

Syndrome de Cushing

Micropuce à ADN

Adrenal glands

Adrenal cortex

Cortico-adrenal tumors

Cushing's syndrome

Aberrant G-protein coupled receptors

Microarray

Identification des gènes responsables des hyperplasies surrénaliennes macronodulaires bilatérales familiales avec récepteurs aberrants

Magne, Fabien

08 1900

La majorité des hyperplasies macronodulaires bilatérales des surrénales avec syndrome de Cushing ACTH-indépendant (AIMAH) est due à l’expression aberrante de divers récepteurs hormonaux au niveau du cortex surrénalien. Les gènes responsables des AIMAH familiales avec récepteurs aberrants n’ont pas été identifiés. Le but de ce projet est de les identifier. Une étude de liaison, visant à identifier la ou les régions du génome comprenant le ou les gènes pouvant être en cause dans les AIMAH familiales, a été réalisée en utilisant l’ADN des membres d’une famille (10 malades et 7 sains) originaire du Québec, atteinte d’AIMAH et syndrome de Cushing et caractérisée par l’expression des récepteurs β-adrénergique et V1-vasopressine. Diverses régions chromosomiques entre les personnes atteintes et non-atteintes de la famille ont été soulignées. Un total de 707453 SNPs a été obtenu, et après analyse statistique, 159 SNPs significatifs, pouvant être associés au phénotype, ont été mis en évidence entre les deux groupes. Il a été constaté que la majorité de ces SNPs se situaient sur les régions chromosomiques 1q32.1 et 16q12.2. Une étude du transcriptome a aussi été réalisée en utilisant l’ADN des tumeurs de deux patients de la famille, ainsi que l’ADN d'autres tumeurs surrénaliennes. Les analyses statistiques ont permis d’identifier 15 gènes susceptibles d’être reliés à la maladie (11 surexprimés et 4 sous-exprimés). En utilisant les données de ces deux études, nous avons ciblé six gènes du chromosome 1 (ATP2B4, PPP1R12B, SOX13, CACNA1S, ADORA1et PHLDA3), un du chromosome 16 (CHD9) et un du chromosome 13 (SPRY2), afin de rechercher la présence de mutations. Le séquençage n’a révélé aucun changement de nucléotide dans les gènes PPP1R12B et SOX13. Dans les gènes ATP2B4, CACNA1S, ADORA1et PHLDA3, le séquençage a révélé des changements de nucléotides n’entrainant soit pas de changement d’acide aminé soit un changement d’acide aminé jugé « non pertinent », du fait qu’il ne permettait pas de différencier les sujets sains des sujets atteints. Pour ce qui est de CHD9 et SPRY2, le séquençage a permis d’identifier des changements de nucléotides entrainant des changements d’acides aminés de façon plus fréquente chez les sujets atteints par rapport aux sujets sains. En conclusion, nos travaux nous ont donc permis d’identifier, par étude de liaison et par analyse du transcriptome, des gènes candidats qui pourraient être responsables de cette pathologie. Le séquençage de ces gènes candidats a révélé des mutations de CHD9 et SPRY2. Ces résultats s’avèrent prometteurs puisque ces deux gènes produisent des protéines impliquées dans le remodelage de la chromatine et dans la régulation de la signalisation des protéines kinases. Le phénotypage et le génotypage des patients atteints doivent être poursuivis pour vérification. / The majority of ACTH-independent macronodular adrenal hyperplasia with Cushing's syndrome (AIMAH) is due to the aberrant expression of various receptors in the adrenal cortex. The genes responsible for familial AIMAH with aberrant receptors have not been identified. The aim of this project is to characterize them. A linkage study to identify the region or regions of the genome comprising the gene or genes that may be involved in familial AIMAH was performed using DNA of family members (10 affected and 7 non affected) born in Quebec and harboring AIMAH and Cushing's syndrome, under the aberrant regulation of B-adrenergic and V1-vasopressin receptors. Various chromosomal regions between patients and non-affected family were highlighted. A total of 707,453 SNPs were obtained, and after statistical analysis, 159 significant SNPs, possibly associated with phenotype, were found between the two groups. It was found that the majority of these SNPs were located on chromosomal regions 1q32.1 and 16q12.2. A transcriptome analysis was conducted using DNA from tumours of two patients of the family, as well as DNA from other adrenal tumours; Statistical analysis identified 15 genes that may be linked to disease (11 up-regulated and 4 under-expressed). Using data from these two studies, we identified six genes on chromosome 1 (ATP2B4, PPP1R12B, SOX13, ADORA1, CACNA1S and PHLDA3), one on chromosome 16 (CHD9) and one on chromosome 13 (SPRY2), to investigate the presence of mutations. The sequencing revealed no nucleotide changes in gene PPP1R12B and SOX13. In ATP2B4, CACNA1S, ADORA1 and PHLDA3, the sequencing not revealed nucleotides changes leading to either amino acid changes or an amino acid changes considered “not-relevant”, because they do not differentiate healthy individuals from affected. The sequencing of CHD9 and SPRY2 identified nucleotide changes causing amino acid changes more frequently in patients compared to healthy subjects. In conclusion, our work has therefore identified by linkage analysis and DNA microarray candidate genes that can be responsible to this disease, and mutations in two of these genes, CHD9 and SPRY2. These results are promising because these genes produce proteins involved in chromatin remodeling and regulation of signaling protein kinases. Phenotyping and genotyping of patients should be pursued further.

Glandes surrénales

Cortex surrénalien

Tumeurs cortico-surrénaliennes

Syndrome de Cushing

Micropuce à ADN

Adrenal glands

Adrenal cortex

Cortico-adrenal tumors

Cushing's syndrome

Aberrant G-protein coupled receptors

Microarray

The ARMC5-Cullin3-RBX1 forms an RPB1-specific ubiquitin ligase essential for RNA polymerase II homeostasis

Lao, Linjiang

02 1900

ARMC5 est une protéine qui contient sept motifs Armadillo répétitifs organisés en tandem et un domaine BTB. Nous avons observé que cette protéine était fortement exprimée dans les organes lymphoïdes, les glandes surrénales et le cerveau. Les souris avec une délétion d’Armc5 (souris KO) étaient de petite taille, et présentaient une diminution de la prolifération et la différenciation des lymphocytes T. L’absence d’ARMC5 entraînait une déficience de la réponse immunitaire médiée par les lymphocytes CD4+ et CD8+ dans les modèles expérimentaux d’encéphalomyélite auto-immune et d’infection au virus de la chorioméningite lymphocytaire, respectivement. Par la suite, plusieurs études ont révélé que la mutation ARMC5 était associée à l’hyperplasie macronodulaire bilatérale primitive des surrénales (HMBPS), qui représente une cause rare du syndrome de Cushing. Nous avons ensuite confirmé que l’hyperplasie des glandes surrénales s’était développée chez les souris KO âgées, et qu’elle s’accompagnait d’une légère augmentation des taux sériques de glucocorticoïdes. Comme ARMC5 ne présentait pas d’activité enzymatique, il était probable qu’elle faisait appel à d’autres protéines pour exercer sa fonction. Nous avons identifié plusieurs protéines qui se liaient à ARMC5, et plus particulièrement le complexe ARMC5/Cullin3 qui formait une ubiquitine ligase (E3) spécifique de la sous-unité RPB1 de l’ARN polymérase II. ARMC5 contrôlait le processus d’ubiquitination de RPB1 qui, par conséquent, s’accumulait dans plusieurs organes majeurs : les glandes surrénales, les ganglions lymphatiques, le cerveau, les poumons, le foie, etc. chez la souris KO. Ces résultats démontrent un rôle clé de l’ubiquitine ligase dans la dégradation de la protéine RPB1. Une accumulation similaire a également été observée dans les tissus hyperplasiques des surrénales provenant de patients atteints d’HMBPS et porteurs de la mutation ARMC5, ce qui souligne la pertinence clinique de nos résultats de recherche fondamentale dans les maladies humaines. Un défaut de dégradation de RPB1 augmentait le pool d’ARN polymérase II. Par ailleurs, nous avons identifié un groupe de gènes fortement surexprimés dans les glandes surrénales déficientes en ARMC5, parmi lesquels figurent les gènes effecteurs qui seraient impliqués dans l’hyperplasie des surrénales chez les souris KO et l’HMBPS chez les patients porteurs de la mutation ARMC5. Finalement, nous avons montré que la délétion ou la mutation d’Armc5 augmentait considérablement le risque des anomalies du tube neural chez les souris et les humains. Chez les patients souffrant de myéloméningocèle, nous avons constaté neuf différentes mutations faux-sens délétères, dont une diminuait l’interaction entre ARMC5 et RPB1. L’augmentation du pool d’ARN polymérase II dans les cellules précurseurs neurales (CPN), causée par la délétion ARMC5, influençait un groupe particulier de gènes, dont certains (p. ex. Folh1) seraient susceptibles de participer au développement du tube neural. En résumé, l’association ARMC5 et Cullin3 forme un complexe E3 qui cible RPB1 provoquant son ubiquitination et sa dégradation. En absence d’un tel mécanisme, on observe une perturbation de l’homéostasie de l’ARN polymérase II, qui mène à une diminution de la réponse immunitaire médiée par lymphocytes T, le développement d’HMBPS et un risque accru d’anomalies du tube neural. / ARMC5 protein contains seven tandem Armadillo repeats and one BTB domain. We observed that Armc5 was highly expressed in the lymphatic organs, adrenal glands, and brain. Armc5 knockout (KO) mice were small in size and exhibited compromised T cell proliferation and differentiation. The absence of ARMC5 resulted in an impairment of the CD4 + cell- and CD8 + cell-mediated immune response in the experimental autoimmune encephalomyelitis model and lymphocytic choriomeningitis virus infection model, respectively. Subsequently, several studies revealed that ARMC5 mutations were related to primary bilateral macronodular adrenal hyperplasia (PBMAH), which is a rare cause of Cushing’s syndrome. We then confirmed that adrenal gland hyperplasia was indeed developed in aged Armc5 KO mice with mildly increased serum glucocorticoid levels. Since ARMC5 did not exhibit enzymatic activity, its function likely depends on the interaction with other proteins. We identified several proteins that binds to ARMC5, most notably ARMC5 binding to Cullin3, forming a ubiquitin ligase (E3) specific for RNA polymerase II subunit I (RPB1). ARMC5 regulated the ubiquitination of RPB1, and its deletion resulted in RPB1 accumulation in major organs (e.g., adrenal glands, lymph nodes, brain, lung, and liver), indicating the critical role of this E3 in RPB1 degradation. A similar accumulation was also found in hyperplasia tissues from adrenal glands of PBMAH patients carrying ARMC5 mutations, underscoring the clinical relevance of our basic research findings in human disease. Defective degradation of RPB1 led to an enlarged RNA polymerase II (Pol II) pool. In addition, we have identified a group of genes strongly upregulated in KO adrenal glands, including the effector genes which would be involved in adrenal gland hyperplasia in Armc5 KO mice and PBMAH patients carrying ARMC5 mutation. Finally, we have shown that deleting or mutating Armc5 significantly augments the risk of neural tube defects in mice and humans. In patients with myelomeningocele, we found nine deleterious missense mutations in ARMC5, one of which weakened the interaction between ARMC5 and RPB1. The enlarged Pol II pool in Armc5 KO neural precursor cells (NPCs) influenced a particular group of genes, some of which (e.g., Folh1) are thought to be involved in the development of the neural tube. In summary, ARMC5 and CUL3 form an E3 complex, which targets RPB1 causing its ubiquitination and degradation. In the absence of such a mechanism, there is a disturbance of RNA polymerase II homeostasis, which leads to a decrease in the T cell-mediated immune response, the development of PBMAH and an increased risk of neural tube defects.

Armc5 (Armadillo repeat containing 5)

ubiquitine ligase

Cullin3

ARN polymérase II

pool d’ARN polymérase II

anomalies du tube neural

fonction des lymphocytes T

RNA polymerase II

RNA polymerase II subunit I (RPB1)

RNA polymerase II pool

neural tube defects

T cell function