Almost one fourth of patients with apparently sporadic pheochromocytoma may be carriers of mutations; routine analysis for mutations of RET, VHL, SDHD, and SDHB is indicated to identify pheochromocytoma-associated syndromes that would otherwise be missed.
HEOCHROMOCYTOMA AND PARAganglioma are tumors of the autonomic nervous system. Terminology in science and clinical practice is divergent. Herein, we use the term pheochromocytoma for location in the adrenal glands, extraadrenal abdominal, and thoracic locations (eg, where nearly all tumors are endocrinologically active). In contrast, the term paraganglioma is only used for tumors in the head and neck area where most tumors are nonfunctioning. All these tumors have been described as sporadic and as hereditary entities. [1][2][3] Estimated yearly incidence of
ARAGANGLIOMA SYNDROME(PGL) is a clinical term that has been introduced to describe a group of diseases in which patients may have neoplasias of several paraganglia. 1,2 For at least 4 decades, it has been known that such conditions may be heritable. 3 In addition, thoracic, retroperitoneal, and adrenal lo-cations (eg, extra-adrenal or adrenal pheochromocytomas) are also wellrecognized components of PGL. 4,5 Thus, Author Affiliations and a complete list of the members of the European-American Paraganglioma Study Group appear at the end of this article.
A third of patients with paraganglial tumors, pheochromocytoma, and paraganglioma, carry germline mutations in one of the susceptibility genes, RET, VHL, NF1, SDHAF2, SDHA, SDHB, SDHC, SDHD, TMEM127, and MAX. Despite increasing importance, data for long-term prognosis are scarce in pediatric presentations. The European-American-PheochromocytomaParaganglioma-Registry, with a total of 2001 patients with confirmed paraganglial tumors, was the platform for this study. Molecular genetic and phenotypic classification and assessment of gene-specific long-term outcome with second and/or malignant paraganglial tumors and life expectancy were performed in patients diagnosed at !18 years. Of 177 eligible registrants, 80% had mutations, 49% VHL, 15% SDHB, 10% SDHD, 4% NF1, and one patient each in RET, SDHA, and SDHC. A second primary paraganglial tumor developed in
The SDHA, TMEM127, MAX, and SDHAF2 genes may contribute to hereditary pheochromocytoma and paraganglioma. Genetic testing is recommended in patients at clinically high risk if the classic genes are mutation negative. Gene-specific prevention and/or early detection requires regular, systematic whole-body investigation.
Von Hippel-Lindau disease (VHL) is an autosomal dominant cancer syndrome. Affected individuals are predisposed to multiple tumors, primarily of the central nervous system (CNS), eyes, adrenals, and kidneys. The VHL tumor suppressor gene on chromosome 3p26-25 is partially or completely deleted in 20 to 30% of families with VHL. We identified deletions ranging from 0.5 kb to 250 kb affecting part of or the entire VHL and flanking genes in 54 families. In 33 of the index patients, the breakpoints were precisely characterized by DNA sequencing. Of the 66 breakpoints, 90% were located in Alu elements, revealing Alu-mediated recombination as the major mechanism for large germline deletions of the VHL gene, which lies in a region of high Alu density. Interestingly, an AluYa5 element in VHL intron 2, the evolutionarily youngest Alu element and the only such element in the entire region, was found to be the most recombinogenic, involved in 7 out of the 33 deletions. In comparison to VHL patients in general, the 54 index cases and their affected relatives showed a higher occurrence of renal cell carcinomas (RCC) and of CNS hemangioblastomas. We not only noted the association of RCC with retention of the HSPC300 gene, but also observed a significant correlation between retention of HSPC300 and the development of retinal angiomas (AR). This study reveals that germline VHL deletions provide a particularly rich source for the study of Alu-mediated unequal crossover events, and provides evidence for a protective role of the loss of the actin-regulator gene HSPC300 for the development of both RCC and AR.
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