Von Hippel-Lindau disease (VHL) is an autosomal dominant disorder with inherited susceptibility to various forms of cancer, including hemangioblastomas of the central nervous system, phaeochromocytomas, pancreatic malignancies, and renal cell carcinomas. Renal cell carcinomas constitute a particularly frequent cause of death in this disorder, occurring as bilateral and multifocal tumours, and presenting at an earlier age than in sporadic, non-familial cases of this tumour type. We report here that the VHL gene is linked to the locus encoding the human homologoue of the RAF1 oncogene, which maps to chromosome 3p25 (ref. 4). Crossovers with the VHL locus suggest that the defect responsible for the VHL phenotype is not a mutation in the RAF1 gene itself. An alternative or prior event to oncogene activation in tumour formation may be the inactivation of a putative 'tumour suppressor' which can be associated with both the inherited and sporadic forms of the cancer. Sporadic renal cell carcinomas have previously been associated with the loss of regions on chromosome 3p (refs 5, 6). Consequently, sporadic and VHL-associated forms of renal cell carcinoma might both result from alterations causing loss of function of the same 'tumour suppressor' gene on this chromosome.
IMPORTANCE Performing DNA genetic testing (DGT) for hereditary cancer genes is now a wellaccepted clinical practice; however, the interpretation of DNA variation remains a challenge for laboratories and clinicians. Adding RNA genetic testing (RGT) enhances DGT by clarifying the clinical actionability of hereditary cancer gene variants, thus improving clinicians' ability to accurately apply strategies for cancer risk reduction and treatment. OBJECTIVE To evaluate whether RGT is associated with improvement in the diagnostic outcome of DGT and in the delivery of personalized cancer risk management for patients with hereditary cancer predisposition. DESIGN, SETTING, AND PARTICIPANTS Diagnostic study in which patients and/or families with inconclusive variants detected by DGT in genes associated with hereditary breast and ovarian cancer, Lynch syndrome, and hereditary diffuse gastric cancer sent blood samples for RGT from March 2016 to April 2018. Clinicians who ordered genetic testing and received a reclassification report for these variants were surveyed to assess whether RGT-related variant reclassifications changed clinical management of these patients. To quantify the potential number of tested individuals who could benefit from RGT, a cohort of 307 812 patients who underwent DGT for hereditary cancer were separately queried to identify variants predicted to affect splicing. Data analysis was conducted from March 2016 and September 2018. MAIN OUTCOMES AND MEASURES Variant reclassification outcomes following RGT, clinical management changes associated with RGT-related variant reclassifications, and the proportion of patients who would likely be affected by a concurrent DGT and RGT multigene panel testing approach. Author affiliations and article information are listed at the end of this article. Open Access. This is an open access article distributed under the terms of the CC-BY-NC-ND License.
Familial paraganglioma/pheochromocytoma (PGL/PCC) is genetically heterogenous with mutations in three of the four subunits of the heterotetrameric mitochondrial complex II enzyme succinate dehydrogenase (SDH) being causally responsible for the majority of cases. In addition to PGL/PCC an array of non-paraganglial tumors have been described in affected individuals. We present a 30-year follow-up on the family of a deceased patient who synchronously developed malignant neuroblastoma (NBL), PCC, and renal cell carcinoma (RCC). Other family members with late onset disease have come to our attention, and molecular study revealed a mutation in the SDHB gene. Despite the embryologic relationship, NBL has been seen in only two previous patients with familial PGL/PCC, both with deletions of the SDHB gene. Review of the literature suggests the lack of a reported association between NBL and familial PGL/PCC may be an ascertainment bias. We further suggest that study of the SDH genes in NBL survivors who develop secondary solid tumors, particularly RCC, may correct this bias, and provide for more effective and comprehensive tumor screening in this patient population.
Recently, we evaluated a 27-month-old boy with congenital generalized nonspecific myopathy, Möbius sequence, Robin sequence, and failure to thrive. We think the child has the same entity described by Carey, Fineman, and Ziter in 1982 [J Pediatr 101:353-364] and as such represents only the third example of this unusual syndrome. Review of the large number of conditions in which the Robin sequence occurs supports heterogeneity. Our case strengthens the Möbius-Robin association and further defines the Carey-Fineman-Ziter syndrome as a viable entity. It is most likely inherited as an autosomal recessive trait.
Brachyolmia recessive type (Hobaek) is a rare bone dysplasia characterized by short trunk dwarfism that becomes evident during childhood. The radiographic manifestations are primarily limited to the spine, and consist of universal platyspondyly with lateral extension of the vertebral bodies beyond the pedicles and irregularity of the vertebral end plates. Histologic changes seen on growth plate biopsy permit the diagnosis to be confirmed. The inheritance pattern appears to be autosomal-recessive.
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