Bernhard U. Bender scite author profile

Objectives-Haemangioblastoma of the CNS occurs as a sporadic entity and as a manifestation of the autosomal dominant von Hippel-Lindau disease with the major additional components retinal angioma, renal cancer, and pheochromocytoma. Genetic testing for germline mutations predisposing to von Hippel-Lindau disease has been available since identification of the VHL tumour suppressor gene. The impact of this testing was evaluated in patients with haemangioblastomas seen in this centre. Methods-A register and database of patients with symptomatic haemangioblastomas for the last 15 years was evaluated. The VHL gene was analysed by the SSCP method for all exons and Southern blotting for mutations and deletions of the gene. Results-141 patients with haemangioblastoma of the CNS were registered. In 81 patients (57%) there was a disease predisposing germline mutation including eight novel mutations. Population related calculation of patients from the administrative district of Freiburg disclosed VHL germline mutations in 22% of the patients with haemangioblastoma. Analysis of mutation carriers for clinical information suggestive of the syndrome showed (1) a positive family history of a brain tumour in 50%, (2) a history for the patient of extracranial manifestations in 36% (retinal angioma 30%, pheochromocytoma 6%), and (3) 19% presenting with multiple brain tumours when first admitted. By genetic testing of haemangioblastoma patients without any indications of von Hippel-Lindau disease mutation carriers were identified in 14%. Sensitivity of VHL germline testing was 86%. Conclusions-DNA analysis for VHL germline mutations is clearly superior to clinical information in the diagnosis of von Hippel-Lindau disease. Although the percentage of von Hippel-Lindau disease associated haemangioblastoma decreases after the fourth decade of life and is infrequent in patients without other symptomatic lesions and a negative family history, it is recommended that every patient with CNS haemangioblastoma should be screened for von Hippel-Lindau disease germline mutations. This provides the key information and enables screening for extraneurological tumours of the patients and investigations of the patient´s family to ameliorate management of von Hippel-Lindau disease. (J Neurol Neurosurg Psychiatry 1999;67:758-762)

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Adrenal-sparing surgery for phaeochromocytoma

Neumann

Bender

Reincke

et al. 1999

109

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Differential Genetic Alterations in von Hippel-Lindau Syndrome-Associated and Sporadic Pheochromocytomas

Bender¹

2000

Journal of Clinical Endocrinology & Metabolism

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Pheochromocytomas arise sporadically and as a component tumor of the inherited cancer syndromes von Hippel-Lindau disease (VHL), multiple endocrine neoplasia type 2 (MEN 2), and type 1 neurofibromatosis. Germline mutations of the VHL tumor suppressor gene (VHL) are responsible for VHL, and germline RET protooncogene mutations are associated with MEN 2. The present study was conducted to examine a large series of 36 VHL-related pheochromocytomas for somatic VHL and RET gene alterations and loss of heterozygosity (LOH) of markers on chromosome arms 1p, 3p, and 22q. For comparison, the same analyses were performed in 17 sporadic pheochromocytomas. We found no somatic intragenic mutations within VHL and RET in any VHL or sporadic pheochromocytoma, and no pheochromocytoma demonstrated upstream VHL gene hypermethylation. Of interest, we found significantly different LOH frequencies at 3 loci between sporadic and VHL tumors; the more than 91% LOH of markers on 3p and the relatively low frequencies of LOH at 1p and 22q (15% and 21%, respectively) in VHL pheochromocytomas argue for the importance of VHL gene dysregulation and dysfunction in the pathogenesis of almost all VHL pheochromocytomas. In contrast, the relatively low frequency of 3p LOH (24%; P: << 0.0001) and the lack of intragenic VHL alterations compared with the high frequency of 1p LOH (71%; P: = 0.0003) and the moderate frequency of 22q LOH (53%) in sporadic pheochromocytomas argue for genes other than VHL, especially on 1p, that are significant for sporadic tumorigenesis and suggest that the genetic pathways involved in sporadic vs. VHL pheochromocytoma genesis are distinct.

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Reconsideration of biallelic inactivation of the VHL tumour suppressor gene in hemangioblastomas of the central nervous system

Gläsker¹,

Bender²,

Apel³

et al. 2001

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Objectives-Cerebellar haemangioblastoma occurs sporadically or as a component tumour of autosomal dominant von Hippel-Lindau disease. Biallelic inactivation of the VHL tumour suppressor gene, which is located on chromosome 3p, has been shown to be involved in the pathogenesis of both tumour entities. Mechanisms of VHL inactivation are intragenic mutations, mitotic recombination events, and hypermethylation of the promoter region. The systematic and complete examination of these genetic and epigenetic phenomena in large series of von Hippel-Lindau disease related and sporadic hemangioblastomas has, thus far, not been performed. Methods-In the largest series to date, 29 von Hippel-Lindau disease associated and 13 sporadic haemangioblastomas were investigated for all suggested inactivating mechanisms of the VHL gene using single strand conformational polymorphism (SSCP), loss of heterozygosity (LOH), and methylation analyses. Additionally, corresponding blood samples of all patients were screened for VHL germline mutations by SSCP and Southern blotting. Results-Germline mutations were identified in 94% of patients with von HippelLindau disease and their tumours and 62% of these hemangioblastomas showed LOH of chromosome 3p. Of the 13 sporadic tumours, 23% showed a single somatic mutation of the VHL gene that was not present in the germline. 3p LOH was identified in 50% of informative sporadic tumours. No von Hippel-Lindau disease related or sporadic tumour demonstrated VHL promoter hypermethylation. Conclusions-For most von Hippel-Lindau disease related haemangioblastomas, the inactivation or loss of both alleles of the VHL gene, as predicted by the Knudson two hit theory, is required. However, in a subset of tumours including most sporadic haemangioblastomas, the genetic pathways involved in tumorigenesis have yet to be defined and may represent alterations of a diVerent pathway or pathways. (J Neurol Neurosurg Psychiatry 2001;70:644-648)

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Germline Mutations in Non-syndromic Pheochromocytoma

Neumann¹,

Bausch²,

McWhinney³

et al. 2004

Horm Metab Res

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Selective loss of chromosome 11 in pheochromocytomas associated with the VHL syndrome

et al. 2002

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By using comparative genomic hybridization (CGH), we characterized the genetic pro®les of 36 VHL-related pheochromocytomas. We then compared the results with those of sporadic and MEN 2-related pheochromocytomas. In 36 VHL-related tumors, loss of chromosome 3 and chromosome 11 were found in 34 tumors (94%) and 31 tumors (86%), respectively. There was signi®cant concordance of deletions in chromosomes 3 and 11 (Kappa=0.64, P=0.0095), suggesting that they are involved in two di erent but necessary and complementary genetic pathways. The loss of chromosome 11 appeared to be speci®c for VHL-related pheochromocytoma as it was not present in any of the 10 VHL-related CNS hemangioblastomas studied and was signi®cantly less common when compared with (a) sporadic pheochromocytomas from previously published results (13%; P=50.0001), and (b) MEN 2-related pheochromocytomas from this and previously published studies (30%; P=0.0012). In summary, this is the ®rst report of a novel consistent genetic alteration that is selected and speci®c for VHL-related pheochromocytoma, besides the two hits of the VHL gene.

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