Germ-line mutations in the micro-ribonucleic acid processing gene DICER1 have been shown to predispose to a subset of benign tumors susceptible to malignant transformation, including ovarian Sertoli-Leydig cell tumor, nontoxic multinodular goiter, multilocular cystic nephroma and pleuropulmonary blastoma, which can occur in children and young adults. This may be due to reduced Dcr-1 homolog expression in carriers of germline mutations, which causes impairment of micro-ribonucleic acid processing and deregulates the growth and differentiation of target cells, leading to an increased risk of tumorigenesis. Many carriers of germ-line DICER1 mutations remain unaffected, but development of tumors within carriers is associated with varying prognoses.
Case presentation
Despite the Dcr-1 homolog syndrome phenotype being incompletely defined, a DICER1 mutation was suspected when a girl (case 1 patient) of Danish ethnicity presented with both an ovarian Sertoli-Leydig cell tumor and a multinodular goiter at the age of 13 years. In addition, family history included a male sibling (case 2 patient) who also had a multinodular goiter and had undergone a hemithyroidectomy at the age of 14 years. Subsequent DICER1 screening of the girl identified two novel mutations in exon 21 - a nonsense (c.3647C>A, p.Ser1216*) and a missense (c.3649T>A, p.Tyr1217Asn) mutation. The siblings had inherited the mutations from their father and paternal grandfather, which both currently were asymptomatic, indicating reduced penetrance of the nonsense mutation. Analysis of the parents revealed that the mutations were present in cis, making the contribution of the missense mutation less significant.
Conclusion
We report a novel pathogenic DICER1 mutation (p.Ser1216*) in a Danish family associated with ovarian Sertoli-Leydig cell tumor and a multinodular goiter. A multinodular goiter was diagnosed in the siblings during childhood. Clinicians should be aware of a potential germ-line DICER1 mutation when evaluating multinodular goiter in young patients with or without a family history of thyroid diseases.
The online version of this article (doi:10.1186/1752-1947-8-112) contains supplementary material, which is available to authorized users.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
MR, TvOH and FCN were involved in the genetic screening of the patients. AJ, CR, MRu and AMG performed the clinical examinations and the genetic counseling of the patients. MR and TvOH drafted the manuscript, while FCN, AJ, CR, MRu and AMG were involved in the revision of the manuscript. All authors read and approved the final manuscript.
Abkürzungen
mRNAs
Messenger RNAs
miRNAs
microRNAs
MNG
Multinodular goiter
SLCT
Sertoli-Leydig cell tumor
US
Ultrasound.
Introduction
Dcr-1 homolog (DICER1) is a member of the ribonuclease type III family and plays an important role in the processing and maturation of micro-ribonucleic acids (miRNAs) [1]. miRNAs are small (20 to 25 nucleotides), double-stranded, non-coding, endogenous RNA molecules that modulate gene expression at the post-transcriptional level by imperfect base pairing to the complementary sequences on target messenger RNAs (mRNAs). miRNA genes are transcribed by RNA polymerase II or III into primary miRNA transcripts termed pri-miRNAs. Pri-miRNAs are subsequently cleaved by the Drosha-DGCR8 complex to release hairpin-shaped pre-miRNAs. Pre-miRNAs are exported to the cytoplasm where DICER1 cuts their terminal loop and generates short miRNA duplexes. A single strand of the small RNA duplexes is finally incorporated into the RNA-induced silencing complex, and in this position, miRNAs bind to their target mRNAs, modulating protein expression [1].
Impaired DICER1 expression and subsequent altered miRNA processing have a substantial impact on the dysregulation of target oncogenes, leading to enhanced tumorigenesis [2]. DICER1 mutations have previously been associated with ovarian Sertoli-Leydig cell tumor (SLCT), nontoxic multinodular goiter (MNG) and multilocular cystic nephroma. These conditions generally follow a benign course [3, 4]. In addition, DICER1 mutations predispose to a rare type of lung cancer most often seen in children, known as pleuropulmonary blastoma [5]. Recently, DICER1 mutations were also suggested to be associated with diseases, such as Wilms’ tumor, cervix embryonal rhabdomyosarcoma and pineoblastoma [6‐8].
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Here we report a novel germ-line DICER1 nonsense mutation in a pair of siblings with MNG, as well as SLCT in the index case.
Case presentation
Case 1 patient was a 13-year-old girl of Danish ethnicity (proband), who presented with swelling of the neck, as well as a deep voice, hirsutism and acne vulgaris in the beard area of the face. She was subsequently diagnosed with MNG and ultrasonic examination identified 13 nodules ranging from 6 to 12mm in size. Examination of her hormonal status revealed increased levels of androstenedione (26nmol/l) and testosterone (total: 6.8nmol/l and free: 0.146nmol/l). Follicle-stimulating hormone and luteinizing hormone levels were normal, as was the Synacthen test. A computed tomography scan identified a tumor in her left ovary. She immediately underwent unilateral oophorectomy and subsequent histopathological examination detected encapsulated tumor tissue, including strings of immature and slightly atypical Sertoli cells together with accumulations of Leydig cells. There were only a few mitoses and no necrosis. The final histopathological diagnosis was reported as an encapsulated SLCT of intermediate degree of differentiation. Immunohistochemical analyses showed positive staining for vimentin and inhibin, whereas α-fetoprotein gave a negative result. Follow-up included an ultrasonic-guided examination of the ovary and measurement of hormonal status and serum inhibin B level for five years with an increasing interval.
Since our proband, had an ovarian SLCT as well as MNG, the pediatricians suspected a DICER1 mutation and referred the girl for genetic counseling. Blood samples were collected, genomic deoxyribonucleic acid (DNA) was purified, and the entire coding region and the exon-intron boundaries of DICER1 were screened. The analysis identified two mutations in exon 21 - a nonsense mutation (c.3647C>A, p.Ser1216*) and a missense mutation (c.3649T>A, p.Tyr1217Asn) of unknown significance (Figure 1, panel B).
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Since a pathogenic DICER1 mutation was identified, first and second degree relatives of the proband were screened for the mutation. The analyses revealed that the brother, the father and the paternal grandfather all carried the pathogenic DICER1 mutation as well as the missense mutation (Figure 2), indicating that the two mutations are present in cis on the same allele.
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Case 2 patient is a five-year older brother of the proband who had an MNG and underwent hemithyroidectomy at the age of 14. Ultrasound (US)-guided fine-needle aspirate from the dominating hypoechoic cold nodule measuring (4×3.5×2.5cm) yielded follicular neoplasia. Subsequently, the brother underwent a right-sided hemi-thyroidectomy and the histopathological examination revealed an encapsulated follicular adenoma with papillary hyperplasia. The brother is at present time in his early 20s and remains euthyroid without any pressure symptoms. He has annual consultations regarding the MNG of the left lobe to monitor potential growth in the cold nodules.
The father, at the age of 50, has no chronic illnesses and no medical history of any thyroid symptoms. A recent thyroid check-up confirmed the euthyroid status and a normal palpatory examination of the thyroid and neck area. The medical history of the paternal grandfather reveals a remarkably fit patient in his mid-80s who is being treated for hypertension and hypercholesterolemia. The grandfather remains euthyroid and palpatoric examination of the thyroid and neck area did not reveal any goiter, nodules or enlarged lymph nodes.
Discussion
Ovarian SLCTs are rare androgen-producing sex cord-gonadal stromal tumors that account for less than 1% of ovarian tumors, occurring most commonly in younger women while MNG is a common disease likely caused by low iodine intake but also with a heritable predisposition. In this study, a girl was diagnosed with MNG and ovarian SLCT at the age of 13 years. Subsequently, a pathogenic DICER1 mutation was identified. To date, 45 different pathogenic germ-line DICER1 mutations have been reported in 53 probands with various neoplasms worldwide, including frameshift, nonsense, splicing and missense mutations scattered throughout the gene, as well as large genomic rearrangements (Table 1) [3‐5, 7‐13]. The novel nonsense mutation identified in the present study resides in exon 21, the largest exon of DICER1, where currently 11 other pathogenic germ-line mutations and deletions have been identified. Hence, exon 21 of the DICER1 gene has the highest frequency of disease-causing mutations, followed by exons 8 and 23 with five pathogenic mutations each. Exon 21 is of particular interest as it encodes a large part of the ribonuclease (RNase) IIIa domain. The RNase IIIa domain is highly important for the production of miRNAs from the 3’ arm of precursors and forms, together with RNase IIIb, the core catalytic element of Dicer1.
Table 1
Previously reported germ-line mutations in theDICER1gene
Our data indicate reduced penetrance of the c.3647C>A DICER1 mutation. At the time of our study, two of the adult family members showed no signs of neoplasms, whereas the mutation was associated with characteristic tumors at an early age in the proband and her brother. The relatively low penetrance in the described family is in line with other reported familial DICER1 mutations [3, 4, 14]. The low penetrance of DICER1 mutations could relate to a decisive role of miRNAs in the differentiation of stem cells [15], assuming a significant intrauterine selection pressure against the mutations in combination with variations in genetic background. Although the level of penetrance of DICER1 mutations seems modest, mutational screening of DICER1 in children and young persons with MNG as well as rare tumors of the ovary, eyes, lungs or kidneys could still be useful. Such screening might also be important in cases devoid of a family history. However, the apparent modest level of penetrance makes the issue of intrauterine testing for the mutation ethically debatable. Genetic counseling of parents of children with a recognized DICER1 mutation who intend to have more children would benefit from a more precise knowledge of the tumorigenic penetrance of the different DICER1 mutations. Therefore, clinical follow-up studies of patients with pathogenic DICER1 mutations with and without neoplastic diseases are required for improved counseling and treatment.
Conclusions
Very few clinicians couple the rare SLCT with the more common MNG and it is therefore reasonable to assume that the syndromes associated with DICER1 mutations are under diagnosed. Based on the findings in the present case report, future awareness of SLCT and MNG should reveal a more accurate incidence. Moreover, clinicians should be aware of a potential germ-line DICER1 mutation when evaluating multinodular goiter in young patients with or without a family history of thyroid diseases.
Consent
Written informed consent was obtained from the first patient's (Case 1) legal guardian and all other involved patients for publication of this case report and accompanying images. Copies of the written consents are available for review by the Editor-in-Chief of this journal.
Acknowledgements
We thank Stine Østergaard and Shehrukh Jamil for technical assistance. We also thank the patients reported in this case report for their consent to publish the findings.
Open Access
This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License (
https://creativecommons.org/licenses/by/2.0
), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (
https://creativecommons.org/publicdomain/zero/1.0/
) applies to the data made available in this article, unless otherwise stated.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
MR, TvOH and FCN were involved in the genetic screening of the patients. AJ, CR, MRu and AMG performed the clinical examinations and the genetic counseling of the patients. MR and TvOH drafted the manuscript, while FCN, AJ, CR, MRu and AMG were involved in the revision of the manuscript. All authors read and approved the final manuscript.
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