Allelic Frequencies of HLA-A, HLA-B and HLA-DRB1 Genes in Children with Adrenocortical Tumor who are Carriers of the Germline Mutation R337H in the TP53 Gene

Research Article

J Endocr Disord. 2014;1(3): 1014.

Allelic Frequencies of HLA-A, HLA-B and HLA-DRB1 Genes in Children with Adrenocortical Tumor who are Carriers of the Germline Mutation R337H in the TP53 Gene

Cordeiro AMB1, Bicalho MG2, Moraes MM2, Rezende GYT2, Nesi-França S1, Marques-Pereira R1 and De Lacerda L1*

1Department of Pediatrics, Federal University of Paraná, Brazil

2Department of Genetics, Federal University of Paraná, Brazil

*Corresponding author: De Lacerda L, Pediatric Endocrine Unit, Department of Pediatrics, Federal University of Paraná. Rua Pe. Camargo, 250, CEP 80060-240, Curitiba, PR, Brazil

Received: August 02, 2014; Accepted: October 14, 2014; Published: October 16, 2014

Abstract

Context: Most children and adolescents with Adrenocortical Tumors (ACT) in Paraná (Brazil) carry the germline mutation R337H in the TP53 gene. However, the mutation alone is not sufficient for the development of the tumor. Close association of the HLA system with certain types of malignancies, such as osteosarcoma, leukemia and Hodgkin´s disease, has been documented and in recent studies, reduced expression of class II HLA complex genes has been shown in adrenocortical carcinomas.

Objectives: To evaluate the allelic frequency of the HLA-A, HLA-B and HLA-DRB1 genes in ACT patients with the TP53 R337H mutation and in Caucasian controls.

Design: Genomic study.

Patients and participants: 39 ACT patients following up regularly at the Pediatric Endocrine Unit of Federal University of Paraná School Hospital and 50,665 controls.

Main Outcome Measure: Frequency of allelic variants of the HLA-A, HLA-B and HLA-DRB1 genes.

Results: Compared with controls, the allelic variants HLA-A*31, HLA-B*39 and HLA-DRB1*08 were significantly more frequent in patients.

Conclusion: These results suggest an association between the HLA system and the development of ACT in children and adolescents with the TP53 gene germline mutation R337H.

Keywords: Adrenocortical tumor; Children; TP53; HLA

Abbreviations

ACT: Adrenocortical Tumors; OR: Odds Ratio; VS: Virilization Syndrome; MS: Mixed Syndrome; CS: Cushing Syndrome

Introduction

Adrenocortical Tumors (ACT) are extremely rare in children, but their prevalence in the South and Southeast regions of Brazil is about fifteen times higher than that worldwide [1-3]. Since both these Brazilian regions have extensive agricultural activity, the possibility of environmental factors, such as exposure to agricultural pesticides, has been considered [1].

The tumor is more frequent in girls below the age of five years and presents most commonly with signs of virilization [4]. The main criterion currently used to establish the prognosis of patients with ACT is clinical staging, which is based on tumor size and presence or absence of metastases on diagnosis [4-6]. In patients without detectable metastases, the diagnosis of ACT may be challenging due to lack of consensus on the reliability of histological analysis in differentiating adenomas from adrenocortical carcinomas [7,8]. The definitive treatment of patients with ACT is surgical resection, and the prognosis correlates negatively with the size of the tumor [4,9]. The increased incidence of childhood ACT in the South and Southeast regions of Brazil has been widely documented. However, the factors associated with this increased incidence remain a matter of research. A recent study by Custodio et al. evaluated the presence of the mutation TP53 R337H in 171,649 neonates born between December 2005 and March 2010 in Paraná, reporting an estimated prevalence of 0.27% [10]. Since this mutation is also found in healthy relatives of children with ACT [11], other factors seem to be also involved in the pathogenesis of ACT.

In a long-term study by Marques-Pereira et al. [4], no ACT was identified in a cohort of 65 children (aged 0.25 to 14.6 years) bearing the TP53 R337H mutation who were followed for three years with clinical, laboratory and imaging tests. The follow-up of this cohort has been extended to four more years and still no evidence of ACT has been found (data not yet published). These data reinforce the concept that the mutation per se is not enough to explain the emergence of the tumor.

The gene TP53 codes for a protein that acts as a transcriptional regulator, activating expression of numerous genes involved in cell death, cell cycle arrest, senescence, DNA repair and many others processes. The loss of the wild-type allele and the abnormal nuclear accumulation of the mutant protein in these tumors (a common finding in p53-associated cancers) support the premise that this mutation plays an essential role in the development of ACT [12]. In spite of the multiple efforts to characterize the functions of p53, the mechanisms of tumor suppression by p53 remain only partially understood [13].

Population studies have shown an association between the HLA system and development of more than 40 diseases [14]. Evidence also shows a positive association between HLA alleles and susceptibility to Hodgkin’s disease [15], leukemia [16] and osteosarcoma [17].

One study has assessed the presence of HLA antigens in ACT. Although a clear relationship between those antigens and the development of the tumor has not been established, a relationship between some alleles of the HLA system and a higher risk of adrenocortical malignancy in adults has been documented [18]. In addition, reduced expression of HLA class II antigens has been shown in adrenal carcinomas, but not in adenomas [19]. In contrast, another study has shown that changes in HLA expression are unable to differentiate adenomas from carcinomas in children [20]. Low expression of HLA class II antigens has been associated with more aggressive disease in several human malignancies including adult ACT, but their clinical relevance in pediatric ACT needs to be investigated.

So far, no studies have shown an association between the profiles of HLA class I genes (HLA-A, HLA-B) and the development of ACT in children. As for HLA class II genes, one study has shown a higher prevalence of the variant DRB1*01 in adrenal carcinomas [21].

Considering the scarcity of data on HLA and ACT reported on literature, we analyzed the HLA-A, HLA-B and HLA-DRB1 profiles in 39 patients and its association with ACT. All patients were HLA genotyped. We also compared the frequencies of these alleles according to clinical presentation.

Patients and Methods

Sample description

The ethnic and racial makeup of the Brazilian population is complex and unique. For administrative purposes, the country encompasses five regions: North, Northeast, Central-West, Southeast and South. The Northeast region, for example, has the greatest proportion of African descendants, whereas the Southern and South regions have a mixture of immigrants from several European countries (Germany, Poland, Italy, Ukraine) during the second half of the 19th and beginning of the 20th century migratory waves [22].

The present study was carried out in the state of Paraná which is located in the Southern region of Brazil. Its population is mainly composed by European descendants as a result of a colonization program of the local government promoted during the 19th and 20th centuries.

Of 153 patients treated for ACT between 1966 and 2011 at the Pediatric Endocrinology Unit of the Federal University of Paraná School Hospital, 45 are currently following up regularly. Most of these patients were born in the state of Paraná (Southern Region of Brazil), whereas a few were born in the state of Santa Catarina (South Region) or in the state of São Paulo (Southeast Region). All patients had been previously tested for the TP53 R337H mutation according to Ribeiro et al. [12]. Five patients who tested negative for the mutation and one whose HLA-B allele genotyping could not be clearly defined despite repeated analysis (including parental haplotype) were excluded from the current study. The remaining analysis of HLA-A, HLA-B and HLA-DRB1 genotypes was performed in 39 patients (“patients”).

Patients HLA genotyping were compared with 50,665 Caucasoid bone marrow donors of the Brazilian Registry of Bone Marrow Donors (“controls”), in the state of Paraná. Tumors were categorized according to the Weiss criteria [5].

The study was approved by the Ethical Committee of the Federal University of Paraná School Hospital.

HLA Typing

Genomic DNA from patients and controls was extracted from peripheral blood with a salting-out procedure [23]. HLA class I (HLA-A, HLA-B) and HLA class II (HLA-DRB1) typing was performed using available typing systems: Dynal RELI™ SSO complemented when necessary with LABType®SSO, both based on Polymerase Chain Reaction (PCR) essays, according to the manufacturer’s instructions.

Allelic and haplotype frequency

Allelic and haplotype frequencies were obtained by direct counting, using the program package ARLEQUIN 3.0 [24].

Statistical analysis

Comparisons between groups (patients versus controls) were performed with the G-test of independence using BioEstat version 5.3 [25]. Results were considered statistically significant if p<0.05. The Bonferroni method was used to correct the p values. This correction was obtained multiplying the critical p value by the number of comparisons as follows: HLA-A (n=21), HLA-B (n=35) and HLA-DRB1 (n=13).

Results

Patient’s characteristics

The clinical features of the patients are summarized in Table 1. Of the 39 patients, 26 were females (2:1 ratio).