Adrenocortical tumors associated with the TP53 p. R337H germline mutation can be identified during child-care consultations / Tumores adrenocorticais associados à mutação germinativa TP53 p. R337H podem ser identificados durante as consultas de puericultura

Abstract Objective: To evaluate the clinical features associated with adrenocortical hormone overexpression and familial cancer profiling as potential markers for early detection of adrenocortical tumors in children from South and Southeast Brazil. Methods: The clinical manifestations and anthropometric measurements of 103 children diagnosed with adrenocortical tumors were analyzed. Results: Between 1982 and 2011, 69 girls and 34 boys diagnosed with adrenocortical tumors were followed-up for a median time of 9.0 years (0-34 years). Signs of androgen overproduction alone (n = 75) or associated with cortisol (n = 18) were present in 90.3%. TP53 p.R337H mutation was found in 90.5% of patients. Stages I, II, III, and IV were observed in 45.6%, 27.2%, 19.4%, and 7.8% of patients, respectively. At diagnosis, there were no significant differences in height (p = 0.92) and weight (p = 0.22) among children with adrenocortical tumors, but children with virilization alone had significantly higher height-for-age Z-scores (0.92 ± 1.4) than children with hypercortisolism alone or combined (−0.32 ± 1,8; p = 0.03). The five-year overall survival was 76.7% (SD ± 4.2). Patients with advanced-stage disease had a significantly worse prognosis than those with limited disease (p < 0.001). During follow-up, ten of 55 p.R337H carrier parents developed cancer, whereas none of the 55 non-carriers did. Conclusions: Signs of adrenocortical hormone overproduction appear early, even in cases with early-stage. These signs can be identified at the physical examination and anthropometric measurements. In southern Brazil, pediatric adrenocortical tumor is a sentinel cancer for detecting families with germline p.R337H mutation in TP53 gene.

Resumo Objetivo: Avaliar as manifestações clínicas da hiperexpressão de hormônios do córtex da adrenal e câncer familiar como marcadores para a detecção precoce de tumores adrenocorticais em crianças do Sul e Sudeste do Brasil. Pacientes e métodos: Foram analisadas as manifestações clínicas e antropométricas de 103 crianças diagnosticadas com tumores adrenocorticais. Resultados: Entre 1982 e 2011, 69 meninas e 34 meninos diagnosticados com tumores adrenocorticais foram acompanhados por um tempo mediano de nove anos (0-34). Ao diagnóstico, sinais de virilização isolada (n = 75) ou associada ao cortisol (n = 18) estavam presentes em 90,3% dos pacientes; a mutação do gene TP53 p.R337H foi identificada em 90,5% dos pacientes. Os pacientes foram classificados em estádio I (45,6%), II (27,2%), III (19,4%) e IV (7,8%). Ao diagnóstico, não houve diferença significativa para as medidas de altura (p = 0,92) e de peso (p = 0,22) entre as crianças com tumores adrenocorticais, mas crianças com virilização tiveram escore-Z mais elevado para a idade (0,92 ± 1,4) do que aquelas com hipercortisolismo isolado ou combinado (−0,32 ± 1,8; p = 0,03). A sobrevida global de cinco anos foi de 76,7% (DP ± 4,2). Pacientes com estádios avançados tiveram pior prognóstico (p < 0,001). Durante o seguimento, 10 dos 55 genitores portadores da p.R337H desenvolveram câncer, enquanto que nenhum caso ocorreu entre os 55 não portadores. Conclusões: Os sinais de hiperprodução de hormônios adrenocorticais aparecem precocemente no desenvolvimento do tumor e podem ser identificados pelo exame físico e pelas medidas antropométricas na consulta pediátrica de rotina. O tumor adrenocortical pediátrico é sentinela para a detecção de câncer em famílias que segregam a mutação germinativa p.R337H do gene TP53.

New evidences on the regulation of SF-1 expression by POD1/TCF21 in adrenocortical tumor cells

OBJECTIVES: Transcription Factor 21 represses steroidogenic factor 1, a nuclear receptor required for gonadal development, sex determination and the regulation of adrenogonadal steroidogenesis. The aim of this study was to investigate whether silencing or overexpression of the gene Transcription Factor 21 could modulate the gene and protein expression of steroidogenic factor 1 in adrenocortical tumors. METHODS: We analyzed the gene expression of steroidogenic factor 1 using qPCR after silencing endogenous Transcription Factor 21 in pediatric adrenal adenoma-T7 cells through small interfering RNA. In addition, using overexpression of Transcription Factor 21 in human adrenocortical carcinoma cells, we analyzed the protein expression of steroidogenic factor 1 using Western blotting. RESULTS: Transcription Factor 21 knockdown increased the mRNA expression of steroidogenic factor 1 by 5.97-fold in pediatric adrenal adenoma-T7 cells. Additionally, Transcription Factor 21 overexpression inhibited the protein expression of steroidogenic factor 1 by 0.41-fold and 0.64-fold in two different adult adrenocortical carcinoma cell cultures, H295R and T36, respectively. CONCLUSIONS: Transcription Factor 21 is downregulated in adrenocortical carcinoma cells. Taken together, these findings support the hypothesis that Transcription Factor 21 is a regulator of steroidogenic factor 1 and is a tumor suppressor gene in pediatric and adult adrenocortical tumors.

Genotype analysis of the human endostatin variant p.D104N in benign and malignant adrenocortical tumors

OBJECTIVE: Endostatin is a potent endogenous inhibitor of angiogenesis. It is derived from the proteolytic cleavage of collagen XVIII, which is encoded by the COL18A1 gene. A polymorphic COL18A1 allele encoding the functional polymorphism p.D104N impairs the activity of endostatin, resulting in a decreased ability to inhibit angiogenesis. This polymorphism has been previously analyzed in many types of cancer and has been considered a phenotype modulator in some benign and malignant tumors. However, these data are controversial, and different results have been reported for the same tumor types, such as prostate and breast cancer. The purpose of this study was to genotype the p.D104N variant in a cohort of pediatric and adult patients with adrenocortical tumors and to determine its possible association with the biological behavior of adrenocortical tumors. METHODS: DNA samples were obtained from 38 pediatric and 56 adult patients (0.6-75 yrs) with adrenocortical tumors. The DNA samples were obtained from peripheral blood, frozen tissue or paraffin-embedded tumor blocks when blood samples or fresh frozen tissue samples were unavailable. Restriction fragment length polymorphism analysis was used to genotype the patients and 150 controls. The potential associations of the p.D104N polymorphism with clinical and histopathological features and oncologic outcome (age of onset, tumor size, malignant tumor behavior, and clinical syndrome) were analyzed. RESULTS: Both the patient group and the control group were in Hardy-Weinberg equilibrium. The frequencies of the p.D104N polymorphism in the patient group were 81.9 percent (DD), 15.9 percent (DN) and 2.2 percent (NN). In the controls, these frequencies were 80.6 percent, 17.3 percent and 2.0 percent, respectively. We did not observe any association of this variant with clinical or histopathological features or oncologic outcome in our cohort of pediatric and adult patients with adrenocortical tumors.

Tumores adrenocorticais na criança: da abordagem clínica à avaliação molecular / Childhood adrenocortical tumors: from a clinical to a molecular approach

Tumores do córtex adrenal (TCA) são mais frequentes em crianças, mas podem ocorrer em qualquer faixa etária. São classificados como funcionantes, não funcionantes (predominam no adulto), e mistos. O diagnóstico é baseado na avaliação clínica, hormonal e exames de imagem. Em crianças, o método de escolha para diferenciar entre benigno ou maligno é a classificação baseada no estadiamento do tumor. Alguns marcadores moleculares merecem destaque: além de mutações inativadoras no gene supressor tumoral TP53, há evidências de envolvimento do IGF2 em 90 por cento de TAC malignos, e mutações no éxon 3 do gene CTNNB1 foram encontradas em 6 por cento dos TAC pediátricos. Além disso, microRNAs podem atuar como reguladores negativos da expressão gênica e participar da tumorigênese adrenocortical. Métodos para análise da expressão gênica permitem identificar TCA com prognóstico bom ou ruim, e espera-se que esses estudos possam facilitar o desenvolvimento de drogas para tratar pacientes de acordo com as vias de sinalização específicas que estiverem alteradas.

Adrenocortical tumors (ACT) are more frequent during childhood, but they can appear at any age. ACTs can be classified in functioning, nonfunctioning (mainly observed in adults) and mixed. The diagnosis is based on clinical, biochemical findings and imaging. In children, in order to classify ACT as benign or malignant, tumor staging classification is recommended. Regarding molecular markers some studies should be taken into account: besides TP53 mutations, previous studies have also provided evidences of IGF2 involvement in 90 percent of the malignant ACT. Mutations altering exon 3 of CTNNB1 gene have been found in 6 percent of childhood ACTs. In addition, microRNAs can act as negative regulators of gene expression by targeting mRNA controlling cell growth, differentiation and apoptosis and have been implicated in adrenal tumorigenesis. High-throughput methods to analyze genome-wide expression have been developed over the last decade and identified a subset of tumors with good or poor prognosis. In the future, these studies can provide the basis of specific drug development, which can treat patients according to specific altered signaling pathway.

Clinical and molecular aspects of a pediatric metachronous adrenocortical tumor / Aspectos clínicos e moleculares de tumor adrenocortical metacrônico pediátrico

The occurrence of metachronous adrenocortical carcinoma has rarely been described. We report a case of a child with virilizing adrenocortical metachronous tumors that, despite several metastases, presented long-term survival (15 years). We analyzed in this tumor IGF2, IGF1R and FGFR4 gene expression, and evaluated the presence of p.R337H germline p53 mutation and somatic CTNNB1 mutation. IGF2 gene was over-expressed in both left (Weiss score 5) and right (Weiss 7) adrenocortical tumors. IGF1R expression levels were higher in the right adrenocortical tumor. FGFR4 over-expression was also detected in the right adrenocortical tumor. In addition, this patient harbors the germline p.R337H p53 mutation and loss of heterozygosity (LOH) was detected in the tumors. No somatic CTNNB1 mutations were found in both tumors. In conclusion, we demonstrated in this unusual case the over-expression of growth signaling pathways, which are molecular mechanisms previously related to adrenocortical tumorigenesis. Furthermore, the absence of somatic CTNNB1 mutations, which is a molecular marker of poor prognosis in adults, might be related to the long-term survival of this patient.

A ocorrência de carcinomas adrenocorticais metacrônicos é raramente relatada. Descrevemos o caso de uma criança portadora de tumor adrenocortical virilizante metacrônico que, apesar das inúmeras metástases, apresentou uma longa sobrevida (15 anos). Analisamos nesse tumor a expressão gênica de IGF2, IGF1R e FGFR4 e avaliamos a presença da mutação germinativa R337H no p53 e mutação somática no gene CTNNB1. O gene IGF2 foi hiperexpresso nos tumores adrenocorticais esquerdo (Weiss 5) e direito (Weiss 7). Os níveis de expressão de IGF1R foram maiores no tumor direito. Hiperexpressão do gene FGFR4 também foi observada no tumor adrenocortical direito. Esse paciente é portador da mutação germinativa R337H no p53, e perda de heterozigose (LOH) foi observada em ambos os tumores. Não foram encontradas mutações no gene CTNNB1 nos tumores. Em conclusão, demonstramos neste caso a hiperexpressão de vias moleculares de crescimento, que são mecanismos previamente relacionados à tumorigênese adrenocortical. Além disso, não encontramos mutações somáticas no gene CTNNB1, que é um marcador molecular de mau prognóstico em adultos e poderia estar relacionado à longa sobrevida desse paciente.

c-Ki-ras oncogene amplification and FGF2 signaling pathways in the mouse Y1 adrenocortical cell line

A linhagem tumoral Y1, originada de adrenocórtex decamundongo responde a FGF2 (Fator de Crescimento de Fibroblasto), possui o proto-oncogene c-ki-ras amplificado e a proteína c-Ki-Ras super-expressa e ativa (c-Ki-Ras-GTP). Em trabalhos anteriores mostramos que esta lesão genética causa ativação constitutiva da via de sinalização: c-Ki-Ras-GTP®PI3K®Akt (Forti et al. 2002). Por outro lado, a ativação da via de Raf® MEK®ERK, permanece estritamente dependente de estímulos de FGF2 (Rocha et al. 2003). Neste trabalho mostramos, primeiro, que estímulos de FGF2 ativam transientemente a via c-Ki-Ras-GTP®PI3K®Akt para níveis superiores aos expressos constitutivamente. Segundo, a ativação transiente de c-Ki-Ras-GTP por FGF2 permite a ativação da via de ERK1/2. Terceiro, os níveis basais elevados de c-Ki-Ras-GTP inibem a ativação da proteína c-H-Ras, pois células Y1 expressando o mutante negativo RasN17 apresentam uma rápida e transiente ativação de c-H-Ras-GTP após tratamentos de FGF2. Estes estudos das vias de sinalização acionadas por FGF2 em células adrenais tumorais Y1 podem fornecer novos alvos para o desenvolvimento de drogas de interesse para terapia oncogênica.

Avanços recentes no conhecimento dos mecanismos moleculares envolvidos na tumorigênese adrenocortical / Molecular mechanisms envolved in adrenocortical tumorigenesis

A tumorigênese adrenal é um fenômeno complexo, que envolve múltiplas alterações genéticas. Uma melhor compreensão dos mecanismos que levam ao desenvolvimento dos tumores adrenocorticais possibilitaria não só a identificação precoce dos casos de má evolução, mas também o desenvolvimento de novas estratégias terapêuticas. Embora nos últimos anos tenham surgido vários estudos sobre a tumorigênese adrenocortical, o processo permanece em grande parte desconhecido. A maior parte dos trabalhos disponíveis estudou apenas um ou poucos genes. Por se tratar de um fenômeno complexo, técnicas que avaliam múltiplos, como os microarrays, possivelmente possibilitarão o entendimento de aspectos que até o momento são desconhecidos. Nesta revisão, tentamos resumir de forma abrangente os principais trabalhos científicos produzidos nos últimos anos a respeito do processo de tumorigênese adrenocortical.

Founder effect for the highly prevalent R337H mutation of tumor suppressor p53 in Brazilian patients with adrenocortical tumors

A incidência dos tumores adrenocorticais em crianças das regiões sul e sudeste do Brasil é maior que em outras partes do mundo. Este fato tem sido atribuído a identificação com alta frequência (78-97%) da mutação R337H no p53 em crianças brasileiras com tumores adrenocorticais. Considerando a elevada freqüência desta mutação germinativa na população brasileira, é provável que a mutação R337H tenha uma origem comum. Neste estudo, analisamos 2 marcadores polimórficos intragênicos (VNTRp53 e p53CA) em 22 pacientes (16 crianças e 6 adultos) com tumores adrenocorticais portadores da mutação germinativa R337H e em 60 indivíduos normais, através do programa GeneScan de análise de fragmentos. Seis e 16 alelos dos marcadores polimórficos VNTRp53 e p53CA foram respectivamente identificados. Dois alelos, ambos com 122 bp, foram identificados em 56,8% (VNTRp53) e 54,5% (p53CA) dos 44 alelos dos pacientes com tumores adrenocorticais. Em contraste, estes mesmos marcadores foram encontrados respectivamente em 18,3% e 14,2% dos 120 alelos dos indivíduos normais (p< 0,01, teste do chi-quadrado). Identificamos também, um haplótipo idêntico para o locus p53 em 95% dos pacientes com tumores adrenocorticais com a mutação R337H. Em conclusão, demonstramos uma forte evidência de co-segregação entre dois marcadores polimórficos intragênicos do p53 e a mutação germinativa R337H, indicando que esta mutação teve origem num ancestral comum na maioria dos pacientes brasileiros com tumores adrenocorticais.

Role of ACTH receptor in adrenocortical tumor formation

Adrenocorticotrophin (ACTH) is the major regulatory hormone of steroid synthesis and secretion by adrenocortical cells. The actions of ACTH are mediated by its specific membrane receptor (ACTH-R). The human ACTH-R gene was recently cloned, allowing systematic determination of its sequence, expression and function in adrenal tumorigenesis. The presence of oncogenic mutations of the ACTH-R gene in adrenocortical tumors has been reported. Direct sequencing of the entire coding region of the ACTH-R gene of sporadic adrenocortical adenomas and carcinomas did not reveal constitutive activating mutations, indicating that this mechanism is not frequent in human adrenocortical tumorigenesis. Recent studies demonstrated allelic loss of the ACTH-R gene in a subset of sporadic adrenocortical tumors using a PstI polymorphism located in the promoter region of the ACTH-R gene. Loss of heterozygosity of the ACTH-R was analyzed in 20 informative patients with a variety of benign and malignant adrenocortical tumors. Three of them showed loss of heterozygosity of the ACTH-R gene. In addition, Northern blot experiments demonstrated reduced expression of ACTH-R mRNA in these three tumors with loss of heterozygosity, suggesting the functional significance of this finding at the transcriptional level. Deletion of the ACTH-R gene seems to be involved in a subset of human adrenocortical tumors, contributing to cellular dedifferentiation.

Amplification of 9q34 in childhood adrenocortical tumors: a specific feature unrelated to ethnic origin or living conditions

Adrenocortical tumors (ACT) in children under 15 years of age exhibit some clinical and biological features distinct from ACT in adults. Cell proliferation, hypertrophy and cell death in adrenal cortex during the last months of gestation and the immediate postnatal period seem to be critical for the origin of ACT in children. Studies with large numbers of patients with childhood ACT have indicated a median age at diagnosis of about 4 years. In our institution, the median age was 3 years and 5 months, while the median age for first signs and symptoms was 2 years and 5 months (N = 72). Using the comparative genomic hybridization technique, we have reported a high frequency of 9q34 amplification in adenomas and carcinomas. This finding has been confirmed more recently by investigators in England. The lower socioeconomic status, the distinctive ethnic groups and all the regional differences in Southern Brazil in relation to patients in England indicate that these differences are not important to determine 9q34 amplification. Candidate amplified genes mapped to this locus are currently being investigated and Southern blot results obtained so far have discarded amplification of the abl oncogene. Amplification of 9q34 has not been found to be related to tumor size, staging, or malignant histopathological features, nor does it seem to be responsible for the higher incidence of ACT observed in Southern Brazil, but could be related to an ACT from embryonic origin.

No evidence for oncogenic mutations in guanine nucleotilde-binding proteins of endocrine tumors

In recent years, the application of DNA technology has led to significant advances in the elucidation of the somatic defects which can occur in several tumors, including oncogene expression, allelic loss and inappropriate gene transcription and translation. Normal cell growth is regulated by many proto-oncogenes encoding proteins and specific mutations can convert these genes in oncogenes, leading to abnormal protein products that are responsible for the growth of malignant cells. Mutations that inhibit GTPase activity of the a subunit of the stimulatory G protein (Gsa) have been demonstrated in approximately a thrid of GH-secreting tumors, in 10 percent of functionless pituitary tumors, and also in corticotropinomas although with far less frequency. These mutations -gsp mutations - stabilize the Gsa in the active state (GTP-bound state), resulting in the permanent activation of adenylyl cyclase, leading to tumorigenesis. In addition, mutations in the a subunit of the inhibitory GTP-binding protein gene (Gi2a), or gip mutations, have been found in a subset of adrenocortical and ovarian tumors. In the present work, using the polymerase chain reaction and denaturing gradient gel electrophoresis, we investigated the existence of gsp and gip mutations in twenty three different endocrine tumors.