First case report of inherited Rubinstein-Taybi syndrome associated with a novel EP300 variant

Background

von Hippel-Lindau (VHL) disease is a rare hereditary tumor syndrome caused by VHL gene mutations that is characterized by heterogeneous phenotypes such as benign/malignant tumors of the central nervous system, retina, kidney, adrenal gland, and pancreas. The genotype-phenotype correlation has not been well characterized in the Korean population so far. Therefore, this study aimed to evaluate the VHL mutation spectrum and genotype-phenotype correlations in Korean VHL patients.

Methods

Thirteen unrelated subjects with VHL mutations were included. Direct sequencing and multiplex ligation-dependent probe amplification were performed. Consequently, the clinical manifestations and family histories of the subjects were evaluated.

Results

We identified 10 different VHL mutations. The c.160_161delAT frameshift mutation was novel. Missense mutations clustered in 2 domains (α domain in exon 1; β domain in exon 3). The most frequently observed mutation was c.208G > A (p.Glu70Lys). Milder phenotypes were observed in subjects with de novo mutations. Age-specific risk for CNS hemangioblastoma was significantly higher in subjects carrying missense mutations within the HIF-α binding site (P < 0.05).

Conclusions

This study provides insight into the genotype-phenotype correlation in that amino acid substitutions in the HIF-α binding site may predispose patients to age-related risks of CNS hemangioblastoma.

     

Germline mutation profile of the VHL gene in von Hippel-Lindau disease and in sporadic hemangioblastoma

Von Hippel-Lindau (VHL) disease is a dominantly inherited disorder predisposing those afflicted to hemangioblastomas of the central nervous system and the retina, renal cell carcinomas, pheochromocytomas, and pancreatic tumors. The disease has been associated with mutations of the VHL gene. The screening of 92 unrelated patients with VHL disease for point mutations in this gene revealed 61 DNA variants. In addition, a search for EcoR1 rearrangements revealed germline anomalies in 5 patients. The 61 variants could be subdivided in 20 mutations predicted to alter the open reading frame (8 nonsense mutations, 8 frame shift mutations, and 4 mutations in consensus splicing sites) and 43 DNA sequence variants of a priori unknown biological consequence (4 in-frame insertions or deletions, 36 missense mutations, and 3 apparently silent variations). The 3′ end of the coding sequence of the VHL gene, which encodes the Elongin binding domain was the site of 5 of 20 truncating mutations (25%) and of 18 of 41 DNA variants (44%) causing uncertain functional impairment. A similar screening in 18 patients with sporadic hemangioblastoma revealed 2 missense DNA variants. In order to corroborate this latter observation, a systematic screening for germline alteration of the VHL gene might be performed in a larger series of sporadic hemangioblastoma. If this preliminary result is confirmed, more than 10% of sporadic hemangioblastoma might be related to a mild VHL disease, thus a follow-up program similar to that recommended in cases of VHL disease should probably be discussed in the corresponding families. Hum Mutat 12:424–430, 1998. © 1998 Wiley-Liss, Inc.     

Characterization of VHL promoter variants in patients suspected of Von Hippel-Lindau disease

Von Hippel-Lindau (VHL) disease is a hereditary tumor syndrome in which carriers are at an increased risk of developing a variety of tumors in multiple organ systems. A clinical diagnosis of VHL is determined by the presence of specific clinical manifestations while a molecular genetic diagnosis results from a pathogenic variant in the VHL gene. The majority of mutations occur in VHL coding exons and DNA analysis of these regions has a reported sensitivity of nearly 100%. However, rare variants in the VHL gene promoter may be detected in some cases of suspected VHL disease. We report two cases where VHL promoter variants were detected and describe the role of multi-step mRNA and protein analysis in the diagnostic evaluation of these cases.     

Mosaicism in von Hippel–Lindau disease with severe renal manifestations

von Hippel–Lindau (VHL) disease is an inheritable multisystem tumor syndrome characterized by multiple benign and malignant tumors affecting multiple organs. VHL is the result of a germline mutation in the VHL tumor suppressor gene. Molecular genomic analysis routinely confirms the clinical diagnosis. However, the use of molecular diagnostic methods can often be insufficient for the detection of mosaic germline VHL mutations, making the diagnosis of some cases of VHL difficult. Here, we report the case of a VHL mosaic patient with bilateral renal lesions in the absence of other VHL‐associated lesions. A VHL mutation was not originally detected by routine molecular testing. Nonetheless, the detection of a heterozygous c.194C>G (p.Ser65Trp) VHL mutation in the patient's daughter prompted further genetic assessment and eventually resulted in the finding of a mosaic c.194C>G (p.Ser65Trp) VHL mutation in the patient. The mutation rate was 18.8 ± 3.84% in peripheral leukocytes. As the frequency of VHL mosaicism remains underdetermined, the possibility of a diagnosis of mosaic VHL should be considered in patients with both typical and atypical VHL‐associated manifestations.     

Alu‐Alu recombination underlies the vast majority of large VHL germline deletions: Molecular characterization and genotype–phenotype correlations in VHL patients

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. Hum Mutat 30, 1–11, 2009. © 2009 Wiley‐Liss, Inc.     

Genotype-phenotype correlations of pheochromocytoma in two large von Hippel-Lindau (VHL) type 2A kindreds with different missense mutations

Von Hippel–Lindau (VHL) disease type 2A is an inherited tumor syndrome characterized by predisposition to pheochromocytoma (pheo), retinal hemangioma (RA), and central nervous system hemangioblastoma (HB). Specific VHL subtypes display genotype–phenotype correlations but, unlike other familial syndromes such as MEN‐2, the phenotype in VHL has not yet been stratified at the codon level. Over decades, we have managed two very large VHL type 2A regional kindreds with nearly adjacent but distinct VHL missense mutations. We determined the phenotype of Family 2 and compared the clinical and pathologic parameters of pheo between 30 members of Family 1 (Y112H mutation) and 33 members of Family 2 (Y98H mutation) with mean follow‐up of 15.5 and 12.1 years, respectively (P = 0.24). In Family 2, pheo was the most frequent VHL manifestation (79%) and all pheo diagnoses occurred by age 50. Age at first diagnosis was younger in Family 2 than in Family 1 (mean 19.7 vs. 28.8 years; P = 0.02). Pheo expressivity differed by genotype: Family 1 pheo was more likely to be multifocal (P = 0.04), as well as malignant (P < 0.01) and lethal (P = 0.02). Family 1 pheo was also more likely to secrete vanillylmandelic acid (VMA) alone (P = 0.05). This analysis of 130 pheochromocytomas in 63 VHL type 2A patients demonstrates that mutation‐specific malignancy and expression patterns exist within the VHL type 2A subtype, and provides information that may help tailor the screening and management algorithms of affected members and those at risk. © 2010 Wiley‐Liss, Inc.     

Novel Homozygous Mutation of the Internal Translation Initiation Start Site of VHL is Exclusively Associated with Erythrocytosis: Indications for Distinct Functional Roles of von Hippel‐Lindau Tumor Suppressor Isoforms

Congenital secondary erythrocytosis is a rare disorder characterized by increased red blood cell production. An important cause involves defects in the oxygen sensing pathway, in particular the PHD2–VHL–HIF axis. Mutations in VHL are also associated with the von Hippel‐Lindau tumor predisposition syndrome. The differences in phenotypic expression of VHL mutations are poorly understood. We report on three patients with erythrocytosis, from two unrelated families. All patients show exceptionally high erythropoietin (EPO) levels, and are homozygous for a novel missense mutation in VHL: c.162G>C p.(Met54Ile). The c.162G>C mutation is the most upstream homozygous VHL mutation described so far in patients with erythrocytosis. It abolishes the internal translational start codon, which directs expression of VHLp19, resulting in the production of only VHLp30. The exceptionally high EPO levels and the absence of VHL‐associated tumors in the patients suggest that VHLp19 has a role for regulating EPO levels that VHLp30 does not have, whereas VHLp30 is really the tumor suppressor isoform.     

A family with hydrocephalus as a complication of cerebellar hemangioblastoma: identification of Pro157Leu mutation in the VHL gene

Various mutations in the VHL gene on chromosome 3p25–26 are responsible for von Hippel-Lindau (VHL) syndrome. We report on a Japanese VHL family in which two of the three affected members developed acute occlusive hydrocephalus that necessitated emergency surgery for ventricular shunt or drainage. Direct sequencing and restriction fragment length polymorphism analysis identified a germline missense mutation, Proline-to-Leucine, caused by a C-to-T transition at the second nucleotide of codon 157. Received: September 1, 1999 / Accepted: September 22, 1999     

A vitronectin M381T polymorphism increases risk of hemangioblastoma in patients with VHL gene defect

Hemangioblastomas, highly vascular tumors, occur sporadically or associated with von Hippel–Lindau (VHL) disease. Diverse mutations in the VHL gene inactivate the VHL protein and constitute the molecular etiology of the disease. Changes in VHL gene were analyzed in patients with multiplex ligation-dependent probe amplification and single-strand conformation polymorphism analyses. We report here that other angiogenesis-related changes in vitronectin were identified with 2D electrophoresis of plasma samples and restriction fragment length polymorphisms. Our findings revealed that most patients (80.0%) with a familial VHL deletion carried the threonine (T) allele at vitronectin codon 381. Adults simultaneously carrying a VHL defect and the T allele were 5.0-fold more likely to be affected by VHL disease than were methionine/methionine (M/M) homozygotes carrying a VHL defect. Patients with sporadic hemangioblastoma, C-terminally truncated VHL protein or a large deletion in the VHL gene, and the T allele were 18.0-fold more likely to develop recurrent disease. Taken together, individuals with mutated VHL are more likely to be affected by familial or recurrent sporadic hemangioblastoma when carrying the M/T or T/T genotype at codon 381 of vitronectin. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Expression of the von Hippel-Lindau Tumor Suppressor Gene in Nonneoplastic and Neoplastic Lesions of the Thyroid

Alterations of the von Hippel-Lindau (VHL) gene, which is supposed to act as a tumor suppressor gene, can cause hereditary tumors associated with the VHL syndrome and are found in different sporadic cancers as well. While VHL protein is distinctly detectable in thyroid follicles, so far its expression in nonneoplastic and neoplastic lesions of the thyroid has not been investigated comprehensively. To illuminate the role of VHL for thyroid tumorigenesis, we investigated 12 follicular adenomas; 22 follicular carcinomas; 11 papillary carcinomas; 6 poorly differentiated carcinomas (PDTCs); 9 undifferentiated carcinomas (UTCs); 8 medullary carcinomas; 13 cases with nonneoplastic as well as normal thyroid tissue of 10 patients with antibodies against VHL, vascular endothelial growth factor (VEGF); and the proliferation marker MIB1 immunohistochemically; and selected cases by Western blot analysis. VHL was clearly expressed in nonneoplastic lesions and differentiated tumors derived from follicular epithelium, diminished in PDTCs and very weakly or not detectable in UTCs (p=0.001), nonneoplastic, and neoplastic C-cells. Although slightly increased in certain differentiated tumors, VEGF was found to be reduced in UTCs as well. In summary, VHL is expressed differently in nonneoplastic and neoplastic lesions of the thyroid in proportion to the level of differentiation. VHL gene alterations appear to be a late event in tumorigenesis of the thyroid and a reduction in VHL protein expression is associated with a loss of differentiation and increased aggressiveness in thyroid tumors. There is no apparent inverse correlation between VHL and VEGF expression as described for other sporadic carcinomas. Therefore, the role of VHL for angiogenesis and the molecular basis of the inactivation of VHL in thyroid tumors remains to be elucidated.     

Identification of 3 novel VHL germ-line mutations in Danish VHL patients

ABSTRACT: BACKGROUND: von Hippel-Lindau (VHL) disease is a hereditary cancer syndrome in which the patients develop retinal and central nervous system hemangioblastomas, pheochromocytomas and clear-cell renal tumors. The autosomal dominant disease is caused by mutations in the VHL gene. METHODS: VHL mutational analysis was carried out by sequencing of the coding sequence and by multiplex ligation-dependent probe amplification analysis. The functional consequence of the variants was investigated using in silico prediction tools. RESULTS: A total of 289 probands suspected of having VHL syndrome have been screened for mutations in the VHL gene. Twenty-six different VHL mutations were identified in 36 families including one in-frame duplication, two frame-shift mutations, four nonsense mutations, twelve missense mutations, three intronic mutations and four large genomic rearrangements. Three of these mutations (c.319 C > T, c.342_343dupGGT and c.520_521dupAA) were novel. CONCLUSIONS: In this study we report the VHL germ-line mutations found in Danish families. We found three novel VHL mutations where two were classified as pathogenic and the latter was classified as a variant of unknown significance. Together, our findings contribute to the interpretation of the potential pathogenicity of VHL germ-line mutations.     

Pathogenicity of VHL variants in families with non-syndromic von Hippel-Lindau phenotypes: An integrated evaluation of germline and somatic genomic results

Von Hippel-Lindau (VHL) syndrome is a hereditary tumor syndrome associated with germline loss-of-function pathogenic variants (PVs) in the VHL gene. VHL is classically associated with a high penetrance for many different tumor types. The same tumors may be sporadic in the setting of somatic VHL PVs. With more large-scale genome sequencing, variants with low penetrance or variable expressivity are identified. This has introduced challenges in patient management and the clinical interpretation of germline VHL variants identified in non-classic families. Herein, we report individuals from 3 non-classic families with VHL variants who presented with unexpected or non-syndromic phenotypes, but often with a VHL component tumor. In family 1, two siblings, age 61, with pathogenic VHL p.Leu188Val presented with clear cell renal cell carcinoma and lobular breast cancer. In family 2, the proband, age 82, was found to have pathogenic germline VHL p.Tyr98His on testing for metastatic bladder cancer. In family 3, four members carried germline VHL p.Pro81Ser (variant of uncertain significance), after the proband, age 40, presented with cerebellar hemangioblastoma. None of the individuals in the above three families met clinical criteria of classic VHL, suggesting germline VHL p.Leu188Val, p.Y98H, and p.Tyr98His may be low penetrant variants. Large studies are needed to evaluate penetrance and possible effect of genetic and non-genetic modifiers. Somatic sequencing performed on their respective tumors could help discern the etiology of the component tumors, highlighting the role of somatic evaluation in these cases. Paired examination of somatic and germline findings provided a more complete landscape of genome alterations in cancer development.     

Cryptic von Hippel-Lindau disease: germline mutations in patients with haemangioblastoma only

OBJECTIVES— Central nervous system haemangioblastoma (HAB) is a major feature of von Hippel-Lindau (VHL) disease, and it is estimated that about 30% of HAB patients have VHL disease. Consequently, it is widely recommended that sporadic HAB patients are screened for clinical and radiological features of VHL disease because of the risk of multiple tumours. We investigated the frequency of VHL germline mutations in patients with HAB only with no clinical or radiological evidence of VHL disease to define the role of molecular genetic analysis in the management of such patients.
METHODS—Eighty four patients with a single HAB (23 Dutch, 61 UK) and four with multiple HAB (two Dutch, two UK) were studied by direct sequencing of the coding region and quantitative Southern blotting.
RESULTS—A VHL germline mutation was found in three of 69 (4.3%) single HAB patients aged 50 years or less (three of 84 (3.6%) total single HAB patients). A germline VHL mutation was detected in a 44 year old woman with a solitary cerebellar HAB, as well as in four clinically unaffected close relatives, and in two single HAB cases presenting at the ages of 29 and 36 years. Germline VHL mutations were detected in two of four cases with multiple HAB.
CONCLUSIONS—Early detection of VHL disease is important to reduce morbidity and mortality and therefore we recommend that, in addition to conventional clinical and radiological investigations, VHL gene mutation analysis should be offered to all HAB patients younger than 50 years. HAB patients aged >50 years will have a lower a priori risk of VHL disease and further data are required to evaluate the role of routine molecular genetic investigations in late onset HAB cases. The failure to detect germline VHL mutations in some patients with multiple HAB may indicate the presence of somatic mosaicism or additional HAB susceptibility genes.


Keywords: haemangioblastoma; von Hippel-Lindau disease; VHL; germline mutation     

Clinical and functional properties of novel VHL mutation (X214L) consistent with Type 2A phenotype and low risk of renal cell carcinoma

Sorrell AD, Lee S, Stolle C, Ellenhorn J, Grix A, Kaelin Jr WG, Weitzel JN. Clinical and functional properties of novel VHL mutation (X214L) consistent with Type 2A phenotype and low risk of renal cell carcinoma. This report describes clinical characteristics in families with a Type 2A phenotype and functional properties of a novel von Hippel Lindau variant (X214L). Pedigrees were analyzed. Analysis of von Hippel Lindau (VHL) coding exons and flanking intronic sequences in DNA from a proband with pheochromocytoma and islet cell tumor was performed. Western blot assays for VHL protein (pVHL), HIFα, and Jun B were conducted using VHL null renal clear carcinoma cell lines that were engineered to produce wild‐type or X214L mutant pVHL. Pedigree analysis indicated that the variant tracked with disease and the same or similar VHL point mutations were identified in several Type 2A families. The predicted 14 amino acid extended pVHL variant, when reintroduced into VHL null cells, was stable and retained the ability to downregulate HIFα in a hydroxylation‐dependent manner. In contrast, the variant was defective with respect to downregulation of JunB. pVHL X214L, like other pVHL variants associated with a low risk of clear cell renal carcinoma, largely preserves the ability to downregulate HIF. In contrast, this variant, like other pVHL variants linked to Type 2A disease, fails to suppress JunB. This underscores that JunB may play a role in the pathogenesis of Type 2A VHL disease.     

中国人一个von Hippel-Lindau病的大家系调查及基因突变研究

目的 探讨中国人一个von Hippel-Lindau(VHL)病家系的临床特点及基因突变研究的临床意义。方法 调查一个von Hippel—Lindau病大家系，制定该家系发病的树状图；抽取27位家族成员外周血，采用聚合酶链反应和扩增产物直接测序进行基因检测；通过病史和影像学检查，获得该病的多脏器肿瘤发生情况。结果 该家族4代47人中18人患von Hippel-Lindau病，其中中枢神经系统成血管细胞瘤5例，肾癌合并中枢神经系统成血管细胞瘤3例，肾癌合并视网膜血管瘤3例，肾癌合并胰腺多发性囊肿1例，肾癌合并视网膜血管瘤及胰腺多发性囊肿2例，肾癌合并中枢神经系统成血管细胞瘤及胰腺多发性囊肿1例，肾脏多发性囊肿合并胰腺多发性囊肿1例和胰腺多发性囊肿2例。本组中，肾癌、中枢神经系统成血管细胞瘤、视网膜血管瘤和胰腺多发性囊肿的发生率分别为56％、50％、28％和39％。基因检测发现VHL基因第1外显子上第446位核苷酸A→G突变，该突变导致第78位编码氨基酸由天冬酰胺转变为丝氨酸。检测的27人中，15人呈现VHL基因突变，其中9例患病者、4例致病基因携带者及2例经影象学检查外科手术证实的无症状患者。其余12人无基因突变，同时无相应临床征象。结论 该家系属于von Hippel—Lindau病I型，肾癌发生率高而视网膜血管瘤发生率低是其主要的临床特点。基因检测在早期发现无症状患者和致病基因携带者及对该病家族成员进行临床监测方面起着重要作用，并在遗传生殖角度阻断该疾病的遗传有重要意义。     

amamutdb.no: A Relational Database for MAN2B1 Allelic Variants that Compiles Genotypes,Clinical Phenotypes,and Biochemical and Structural Data of Mutant MAN2B1 in α‐Mannosidosis

α‐Mannosidosis is an autosomal recessive lysosomal storage disorder caused by mutations in the MAN2B1 gene, encoding lysosomal α‐mannosidase. The disorder is characterized by a range of clinical phenotypes of which the major manifestations are mental impairment, hearing impairment, skeletal changes, and immunodeficiency. Here, we report an α‐mannosidosis mutation database, amamutdb.no, which has been constructed as a publicly accessible online resource for recording and analyzing MAN2B1 variants ( http://amamutdb.no ). Our aim has been to offer structured and relational information on MAN2B1 mutations and genotypes along with associated clinical phenotypes. Classifying missense mutations, as pathogenic or benign, is a challenge. Therefore, they have been given special attention as we have compiled all available data that relate to their biochemical, functional, and structural properties. The α‐mannosidosis mutation database is comprehensive and relational in the sense that information can be retrieved and compiled across datasets; hence, it will facilitate diagnostics and increase our understanding of the clinical and molecular aspects of α‐mannosidosis. We believe that the amamutdb.no structure and architecture will be applicable for the development of databases for any monogenic disorder.     

Genotype and phenotype correlation in von Hippel–Lindau disease based on alteration of the HIF-α binding site in VHL protein

PurposeVon Hippel–Lindau (VHL) disease is a rare hereditary cancer syndrome that reduces life expectancy. We aimed to construct a more valuable genotype–phenotype correlation based on alterations in VHL protein (pVHL).MethodsVHL patients (n = 339) were recruited and grouped based on mutation types: HIF-α binding site missense (HM) mutations, non-HIF-α binding site missense (nHM) mutations, and truncating (TR) mutations. Age-related risks of VHL-associated tumors and patient survival were compared.ResultsMissense mutations conferred an increased risk of pheochromocytoma (HR = 1.854, p = 0.047) compared with truncating mutations. The risk of pheochromocytoma was lower in the HM group than in the nHM group (HR = 0.298, p = 0.003) but was similar between HM and TR groups (HR = 0.901, p = 0.810). Patients in the nHM group had a higher risk of pheochromocytoma (HR = 3.447, p < 0.001) and lower risks of central nervous system hemangioblastoma (CHB) (HR = 0.700, p = 0.045), renal cell carcinoma (HR = 0.610, p = 0.024), and pancreatic tumor (HR = 0.382, p < 0.001) than those in the combined HM and TR (HMTR) group. Moreover, nHM mutations were independently associated with better overall survival (HR = 0.345, p = 0.005) and CHB-specific survival (HR = 0.129, p = 0.005) than HMTR mutations.ConclusionThe modified genotype–phenotype correlation links VHL gene mutation, substrate binding site, and phenotypic diversity (penetrance and survival), and provides more accurate information for genetic counseling and pathogenesis studies.     

Ser80Ile mutation and a concurrent Pro25Leu variant of the <Emphasis Type="Italic">VHL</Emphasis> gene in an extended Hungarian von Hippel-Lindau family

Von Hippel-Lindau disease (VHL) is a rare autosomal dominant disease characterized by development of cystic and tumorous lesions at multiple sites, including the brain, spinal cord, kidneys, adrenals, pancreas, epididymis and eyes. The clinical phenotype results from molecular abnormalities of the VHL tumor suppressor gene, mapped to human chromosome 3p25-26. The VHL gene encodes two functionally active VHL proteins due to the presence of two translational initiation sites separated by 53 codons. The majority of disease-causing mutations have been detected downstream of the second translational initiation site, but there are conflicting data as to whether few mutations located in the first 53 codons, such as the Pro25Leu could have a pathogenic role. In this paper we report a large Hungarian VHL type 2 family consisting of 32 members in whom a disease-causing AGT80AAT (Ser80Ile) c.239G>A, p.Ser80Ile mutation, but not the concurrent CCT25CTT (Pro25Leu) c.74C>T, p.Pro25Leu variant co-segregated with the disease. To our knowledge, the Ser80Ile mutation has not been previously described in VHL type 2 patients with high risk of pheochromocytoma and renal cell cancer. Therefore, this finding represents a novel genotype-phenotype association and VHL kindreds with Ser80Ile mutation will require careful surveillance for pheochromocytoma. We concluded that the Pro25Leu variant is a rare, neutral variant, but the presence such a rare gene variant may make genetic counseling difficult.