Jesse S. Voss
Mayo Clinic
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Featured researches published by Jesse S. Voss.
Human Pathology | 2012
Benjamin R. Kipp; Jesse S. Voss; Sarah E. Kerr; Emily G. Barr Fritcher; Rondell P. Graham; Lizhi Zhang; W. Edward Highsmith; Jun Zhang; Lewis R. Roberts; Gregory J. Gores; Kevin C. Halling
Somatic mutations in isocitrate dehydrogenase 1 and 2 genes are common in gliomas and help stratify patients with brain cancer into histologic and molecular subtypes. However, these mutations are considered rare in other solid tumors. The aims of this study were to determine the frequency of isocitrate dehydrogenase 1 and 2 mutations in cholangiocarcinoma and to assess histopathologic differences between specimens with and without an isocitrate dehydrogenase mutation. We sequenced 94 formalin-fixed, paraffin-embedded cholangiocarcinoma (67 intrahepatic and 27 extrahepatic) assessing for isocitrate dehydrogenase 1 (codon 132) and isocitrate dehydrogenase 2 (codons 140 and 172) mutations. Multiple histopathologic characteristics were also evaluated and compared with isocitrate dehydrogenase 1/2 mutation status. Of the 94 evaluated specimens, 21 (22%) had a mutation including 14 isocitrate dehydrogenase 1 and 7 isocitrate dehydrogenase 2 mutations. Isocitrate dehydrogenase mutations were more frequently observed in intrahepatic cholangiocarcinoma than in extrahepatic cholangiocarcinoma (28% versus 7%, respectively; P = .030). The 14 isocitrate dehydrogenase 1 mutations were R132C (n = 9), R132S (n = 2), R132G (n = 2), and R132L (n = 1). The 7 isocitrate dehydrogenase 2 mutations were R172K (n = 5), R172M (n = 1), and R172G (n = 1). Isocitrate dehydrogenase mutations were more frequently observed in tumors with clear cell change (P < .001) and poorly differentiated histology (P = .012). The results of this study show for the first time that isocitrate dehydrogenase 1 and 2 genes are mutated in cholangiocarcinoma. The results of this study are encouraging because it identifies a new potential target for genotype-directed therapeutic trials and may represent a potential biomarker for earlier detection of cholangiocarcinoma in a subset of cases.
Human Pathology | 2013
Jesse S. Voss; Leonard M. Holtegaard; Sarah E. Kerr; Emily G. Barr Fritcher; Lewis R. Roberts; Gregory J. Gores; Jun Zhang; W. Edward Highsmith; Kevin C. Halling; Benjamin R. Kipp
Cholangiocarcinoma is a highly lethal cancer of the biliary tract. The intrahepatic subtype of cholangiocarcinoma is increasing in incidence globally. Despite technologic advancements over the past decade, little is known about the somatic changes that occur in these tumors. The goal of this study was to determine the frequency of common oncogenes in resected cholangiocarcinoma specimens that could provide potential therapeutic targets for patients diagnosed with cholangiocarcinoma. Formalin-fixed, paraffin-embedded tissue blocks from 94 resected cholangiocarcinomas were used to extract DNA from areas comprising more than 20% tumor. Specimens were evaluated using the Sequenom MassARRAY OncoCarta Mutation Profiler Panel (San Diego, CA). This matrix-assisted laser desorption/ionization-time of flight mass spectrometry single genotyping panel evaluates 19 oncogenes for 238 somatic mutations. Twenty-five mutations were identified in 23 of the 94 cholangiocarcinomas within the following oncogenes: KRAS (n = 12), PIK3CA (n = 5), MET (n = 4), EGFR (n = 1), BRAF (n = 2), and NRAS (n = 1). Mutations were identified in 7 (26%) of 27 extrahepatic cholangiocarcinomas and 16 (24%) of 67 intrahepatic cholangiocarcinomas. When combined with IDH1/2 testing, 40 (43%) of the 94 cholangiocarcinomas had a detectable mutation. MassARRAY technology can be used to detect mutations in a wide variety of oncogenes using paraffin-embedded tissue. Clinical testing for somatic mutations may drive personalized therapy selection for cholangiocarcinomas in the future. The variety of mutations detected suggests that a multiplexed mutation detection approach may be necessary for managing patients with biliary tract malignancy.
The American Journal of Gastroenterology | 2011
Emily G. Barr Fritcher; Benjamin R. Kipp; Jesse S. Voss; Amy C. Clayton; Keith D. Lindor; Kevin C. Halling; Gregory J. Gores
OBJECTIVES:A polysomy fluorescence in situ hybridization (FISH) result in a pancreatobiliary brushing from a patient with primary sclerosing cholangitis (PSC) is very worrisome for carcinoma. However, treatment is not recommended unless verified by corroborative evidence of malignancy because of less than perfect test specificity in this population. The aim of this study was to evaluate the clinical outcome of PSC patients with serial polysomy FISH results.METHODS:Patients with PSC underwent endoscopic retrograde cholangiopancreatography with brushings when clinically indicated per standard practice. Brushings were evaluated by routine cytology and FISH. Retrospective review identified patients with a polysomy FISH result without definitive imaging or pathological evidence of malignancy at the time of the first polysomy, who underwent follow-up examinations including subsequent FISH testing (n=30). Patient records were reviewed to determine clinical outcome.RESULTS:In all, 9 of 13 patients (69%) with a subsequent polysomy result (i.e., serial polysomy) were diagnosed with cholangiocarcinoma (CCA) compared with 3 of 17 patients (18%) with subsequent non-polysomy results (P=0.008). There was a significant difference in time to a diagnosis of CCA between PSC patients with serial polysomy compared with those with subsequent non-polysomy (P=0.01). In four patients with serial polysomy results, imaging/pathological evidence of CCA was not found until 1–2.7 years after the initial polysomy FISH result.CONCLUSIONS:FISH may detect polysomic cells in pancreatobiliary brushings before other pathological or imaging techniques identify CCA. Patients with serial polysomy FISH results are at higher risk for having CCA than those with subsequent non-polysomy FISH results.
Human Pathology | 2008
Emily G. Barr Fritcher; Shannon M. Brankley; Benjamin R. Kipp; Jesse S. Voss; Michael B. Campion; Larry E. Morrison; Mona S. Legator; Lori S. Lutzke; Kenneth K. Wang; Thomas J. Sebo; Kevin C. Halling
New detection methods with prognostic power are needed for early identification of dysplasia and esophageal adenocarcinoma (EA) in patients with Barretts esophagus (BE). This study assessed the relative sensitivity and specificity of conventional cytology, DNA ploidy analysis with digital image analysis (DIA), and fluorescence in situ hybridization (FISH) for the detection of dysplasia and adenocarcinoma in endoscopic brushing specimens from 92 patients undergoing endoscopic surveillance for BE. FISH used probes to 8q24 (C-MYC), 9p21 (P16), 17q12 (HER2), and 20q13. Four-quadrant biopsies taken every centimeter throughout visible Barretts mucosa were used as the gold standard. The sensitivity of cytology, DIA, and FISH for low-grade dysplasia was 5%, 5%, and 50%, respectively; for high-grade dysplasia (HGD), 32%, 45%, and 82%, respectively; and for EA, 45%, 45%, and 100%, respectively. FISH was more sensitive (P < .05) than cytology and DIA for low-grade dysplasia, HGD, and EA. The specificity of cytology, DIA, and FISH among patients (n = 14) with tissue showing only benign squamous mucosa was 93%, 86%, and 100% (P = .22), respectively. All patients with a polysomic FISH result had HGD and/or EA within 6 months (n = 33). There was a significant difference between FISH categories (negative, 9p21 loss, gain of a single locus, and polysomy) for progression to HGD/EA (P < .001). These findings suggest that FISH has high sensitivity for the detection of dysplasia and EA in BE patients, with the power to stratify patients by FISH abnormality for progression to HGD/EA. Additional studies are needed to further evaluate the clinical use of FISH.
Cancer Cytopathology | 2013
Emily G. Barr Fritcher; Jesse S. Voss; Sarah M. Jenkins; Ravi K. Lingineni; Amy C. Clayton; Lewis R. Roberts; Kevin C. Halling; Jayant A. Talwalkar; Gregory J. Gores; Benjamin R. Kipp
Patients diagnosed with primary sclerosing cholangitis (PSC) and dominant strictures often undergo endoscopic retrograde cholangiopancreatography with brush cytology to exclude or confirm the development of malignancy. Equivocal (atypical or suspicious) routine cytologic results may confound patient management decisions, especially in the absence of a mass on imaging. The objective of the current study was to identify independent predictors of malignancy in patients with PSC with an equivocal cytology diagnosis.
BMC Cancer | 2015
Robertson Mackenzie; Stefan Kommoss; Boris Winterhoff; Benjamin R. Kipp; Joaquin J. Garcia; Jesse S. Voss; Kevin C. Halling; Anthony N. Karnezis; Janine Senz; Winnie Yang; Elena Sophie Prigge; Miriam Reuschenbach; Magnus von Knebel Doeberitz; Blake Gilks; David Huntsman; Jamie N. Bakkum-Gamez; Jessica N. McAlpine; Michael S. Anglesio
BackgroundMucinous ovarian tumors represent a distinct histotype of epithelial ovarian cancer. The rarest (2-4 % of ovarian carcinomas) of the five major histotypes, their genomic landscape remains poorly described. We undertook hotspot sequencing of 50 genes commonly mutated in human cancer across 69 mucinous ovarian tumors. Our goals were to establish the overall frequency of cancer-hotspot mutations across a large cohort, especially those tumors previously thought to be “RAS-pathway alteration negative”, using highly-sensitive next-generation sequencing as well as further explore a small number of cases with apparent heterogeneity in RAS-pathway activating alterations.MethodsUsing the Ion Torrent PGM platform, we performed next generation sequencing analysis using the v2 Cancer Hotspot Panel. Regions of disparate ERBB2-amplification status were sequenced independently for two mucinous carcinoma (MC) cases, previously established as showing ERBB2 amplification/overexpression heterogeneity, to assess the hypothesis of subclonal populations containing either KRAS mutation or ERBB2 amplification independently or simultaneously.ResultsWe detected mutations in KRAS, TP53, CDKN2A, PIK3CA, PTEN, BRAF, FGFR2, STK11, CTNNB1, SRC, SMAD4, GNA11 and ERBB2. KRAS mutations remain the most frequently observed alteration among MC (64.9 %) and mucinous borderline tumors (MBOT) (92.3 %). TP53 mutation occurred more frequently in carcinomas than borderline tumors (56.8 % and 11.5 %, respectively), and combined IHC and mutation data suggest alterations occur in approximately 68 % of MC and as many as 20 % of MBOT. Proven and potential RAS-pathway activating changes were observed in all but one MC. Concurrent ERBB2 amplification and KRAS mutation were observed in a substantial number of cases (7/63 total), as was co-occurrence of KRAS and BRAF mutations (one case). Microdissection of ERBB2-amplified regions of tumors harboring KRAS mutation suggests these alterations are occurring in the same cell populations, while consistency of KRAS allelic frequency in both ERBB2 amplified and non-amplified regions suggests this mutation occurred in advance of the amplification event.ConclusionsOverall, the prevalence of RAS-alteration and striking co-occurrence of pathway “double-hits” supports a critical role for tumor progression in this ovarian malignancy. Given the spectrum of RAS-activating mutations, it is clear that targeting this pathway may be a viable therapeutic option for patients with recurrent or advanced stage mucinous ovarian carcinoma, however caution should be exercised in selecting one or more personalized therapeutics given the frequency of non-redundant RAS-activating alterations.
Cancer Cytopathology | 2014
Ferga C. Gleeson; Benjamin R. Kipp; Michael J. Levy; Jesse S. Voss; Michael B. Campion; Douglas M. Minot; Zheng J. Tu; Eric W. Klee; Konstantinos N. Lazaridis; Sarah E. Kerr
Multigene molecular testing to guide personalized therapy for oncology patients is of increasing clinical relevance. Molecular testing of fine‐needle aspiration samples is underused, but when acquired with minimally invasive techniques could become the standard of care to obtain theranostic specimens. The aims of the current study were to identify key cytology specimen selection criteria suitable for next‐generation sequencing (NGS) and to determine the prevalence and spectrum of pathogenic alterations in a cohort of patients with AJCC stage IV lung cancer.
Neuro-oncology | 2013
Terri Rice; Shichun Zheng; Paul A. Decker; Kyle M. Walsh; Paige M. Bracci; Yuanyuan Xiao; Lucie McCoy; Ivan Smirnov; Joseph S. Patoka; Helen M. Hansen; George Hsuang; Joseph L. Wiemels; Tarik Tihan; Alexander R. Pico; Michael D. Prados; Susan M. Chang; Mitchel S. Berger; Alissa Caron; Stephanie R. Fink; Thomas M. Kollmeyer; Amanda L. Rynearson; Jesse S. Voss; Matthew L. Kosel; Brooke L. Fridley; Daniel H. Lachance; Jeanette E. Eckel-Passow; Hugues Sicotte; Brian Patrick O'Neill; Caterina Giannini; John K. Wiencke
INTRODUCTION Recent discoveries of inherited glioma risk loci and acquired IDH mutations are providing new insights into glioma etiology. IDH mutations are common in lower grade gliomas and secondary glioblastomas and uncommon in primary glioblastomas. Because the inherited variant in 11q23 has been associated with risk of lower grade glioma and not with glioblastomas, we hypothesized that this variant increases susceptibility to IDH-mutated gliomas, but not to IDH-wild-type gliomas. METHODS We tested this hypothesis in patients with glioma and controls from the San Francisco Adult Glioma Study, the Mayo Clinic, and Illumina controls (1102 total patients, 5299 total controls). Case-control additive associations of 11q23 risk alleles (rs498872, T allele) were calculated using logistic regression, stratified by tumor IDH status (mutated or wild-type) and by histology and grade. We also adjusted for the recently discovered 8q24 glioma risk locus rs55705857 G allele. RESULTS The 11q23 glioma risk locus was associated with increased risk of IDH-mutated gliomas of all histologies and grades (odds ratio [OR] = 1.50; 95% confidence interval [CI] = 1.29-1.74; P = 1.3X10(-7)) but not with IDH-wild-type gliomas of any histology or grade (OR = 0.91; 95% CI = 0.81-1.03; P = 0.14). The associations were independent of the rs55705857 G allele. CONCLUSION A variant at the 11q23 locus increases risk for IDH-mutated but not IDH-wild-type gliomas, regardless of grade or histology.
Journal of Clinical Oncology | 2017
Jeremy Clifton Jones; Lindsay A. Renfro; Humaid O. Al-Shamsi; Alexa B. Schrock; Andrew Rankin; Ben Y. Zhang; Pashtoon Murtaza Kasi; Jesse S. Voss; Alexis D. Leal; James Sun; Jeffrey S. Ross; Siraj M. Ali; Joleen M. Hubbard; Benjamin R. Kipp; Robert R. McWilliams; Scott Kopetz; Robert A. Wolff; Axel Grothey
Purpose Molecular diagnostic testing has become an integral part of the evaluation of patients with metastatic colorectal cancer (CRC). Expanded mutational testing, such as next-generation sequencing (NGS), often identifies mutations with unclear clinical or prognostic implications. One such example is BRAF mutations that occur outside of codon 600 (non-V600 BRAF mutations). Methods We conducted this multicenter, retrospective cohort study to characterize the clinical, pathologic, and survival implications of non-V600 BRAF mutations in metastatic CRC. We pooled patients in whom non-V600 BRAF mutations were identified from NGS databases at three large molecular genetics reference laboratories. Results A total of 9,643 patients with metastatic CRC underwent NGS testing. We identified 208 patients with non-V600 BRAF mutations, which occurred in 2.2% of all patients tested and accounted for 22% of all BRAF mutations identified. Cancers with non-V600 BRAF mutations, compared with cancers with V600E BRAF (V600E BRAF) mutations, were found in patients who were significantly younger (58 v 68 years, respectively), fewer female patients (46% v 65%, respectively), and patients who had fewer high-grade tumors (13% v 64%, respectively) or right-sided primary tumors (36% v 81%, respectively). Median overall survival was significantly longer in patients with non-V600 BRAF-mutant metastatic CRC compared with those with both V600E BRAF-mutant and wild-type BRAF metastatic CRC (60.7 v 11.4 v 43.0 months, respectively; P < .001). In multivariable analysis, non-V600 BRAF mutation was independently associated with improved overall survival (hazard ratio, 0.18; P < .001). Conclusion Non-V600 BRAF mutations occur in approximately 2.2% of patients with metastatic CRC and define a clinically distinct subtype of CRC with an excellent prognosis.
Journal of Neuropathology and Experimental Neurology | 2012
Cristiane M. Ida; Sally R. Lambert; Fausto J. Rodriguez; Jesse S. Voss; Brooke E. Mc Cann; Amber R. Seys; Kevin C. Halling; V. Peter Collins; Caterina Giannini
Abstract Cerebellar low-grade astrocytomas with a diffuse pattern of growth are uncommon, comprising World Health Organization (WHO) grade II diffuse astrocytomas (DA) and a minority of WHO grade I pilocytic astrocytomas (PA), so-called PA, “diffuse variant.” Among 106 cerebellar low-grade astrocytomas (WHO grade I and II) operated on at the Mayo Clinic (1984–2010), we identified 19 such cases: 8 PA, “diffuse variant,” 5 DA, and 6 that we were unable to classify further (low-grade astrocytomas, subtype indeterminate). We characterized these tumors using immunohistochemistry and currently available molecular markers (IDH1/2 mutations and BRAF mutation/fusion gene status) and investigated whether the markers could be used to aid the diagnostic process in combination with the clinical and pathologic features. KIAA1549-BRAF fusion was detected in 4 PA, “diffuse variant,” 2 DA, and 2 low-grade astrocytomas, subtype indeterminate, indicating that these tumors were molecularly consistent with PA, the most common subtype of the series. A BRAF V600E mutation was detected in 1 PA, “diffuse variant” case; an IDH1 R132G mutation was found in 1 DA case. These results suggest that KIAA1549-BRAF fusion status and IDH1/2 and BRAF V600E mutational analyses may assist in the histologic classification of this diagnostically challenging group of tumors and result in a more accurate and objective combined molecular and histologic classification.