David Gonzálo scite author profile

Sessile serrated adenomas/polyps (SSA/Ps) are precursors of colon cancer, particularly those that exhibit microsatellite instability. Distinguishing SSA/Ps from the related, but innocuous, microvesicular hyperplastic polyp (MVHP) can be challenging. In this study seven gastrointestinal pathologists reviewed 109 serrated polyps and identified 60 polyps with histological consensus. Microarray analysis was performed on six distal consensus MVHPs < 9 mm, six proximal consensus SSA/Ps > 9 mm, and six normal colon biopsies (three proximal, three distal). Comparative gene expression analysis confirmed the close relationship between SSA/Ps and MVHPs as there was overlapping expression of many genes. However, the gene expression profile in SSA/Ps had stronger and more numerous associations with cancer-related genes compared with MVHPs. Three genes (TFF2, FABP6, and ANXA10) were identified as candidates whose expression can differentiate SSA/Ps from MVHPs, and the differences in expression were confirmed by quantitative RT-PCR. As ANXA10 showed the most promise in differentiating these polyps, the expression of ANXA10 was evaluated by immunohistochemistry in consensus SSA/Ps (n = 26), MVHPs (n = 21), and normal colon (n = 9). Immunohistochemical expression of ANXA10 was not identified in separate samples of normal colon or in the normal colonic epithelium adjacent to the serrated polyps. Consistent with the microarray and quantitative RT-PCR experiments, immunohistochemical expression of ANXA10 was markedly increased in SSA/Ps compared to MVHPs (p < 0.0001). An ANXA10 score ≥ 3 has a sensitivity of 73% and a specificity of 95% in the diagnosis of an SSA/P. In conclusion, we show that SSA/Ps and MVHPs have significant overlap in gene expression, but also important differences, particularly in cancer-related pathways. Expression of ANXA10 may be a potential marker of the serrated pathway to colon cancer.

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Serrated lesions of the appendix frequently harbor KRAS mutations and not BRAF mutations indicating a distinctly different serrated neoplastic pathway in the appendix

Pai

Hartman

Gonzálo

et al. 2014

Human Pathology

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Isolation of Pancreatic Cancer Cells from a Patient-Derived Xenograft Model Allows for Practical Expansion and Preserved Heterogeneity in Culture

Pham

Delitto

Knowlton

et al. 2016

The American Journal of Pathology

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Hirschsprung Disease and Use of Calretinin in Inadequate Rectal Suction Biopsies

Gonzálo

Plesec

2013

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Context.—Up to 17% of all rectal suction biopsies performed in the evaluation of Hirschsprung disease are considered inadequate. In most instances, inadequate biopsies contain too little submucosa or are taken within the anal transition zone. Objectives.—To examine the utility of calretinin stain in the workup of inadequate biopsies for patients with clinical suspicion of Hirschsprung disease. Design.—A retrospective analysis was conducted of all rectal suction biopsies performed in the evaluation of Hirschsprung disease during the previous 12 years that were considered “inadequate.” Seventeen cases were identified, and Hirschsprung disease status was determined by clinical or surgical follow-up. Immunohistochemistry for calretinin was performed for all cases containing columnar mucosa, which were evaluated without knowledge of clinical course. Results.—All 12 patients without Hirschsprung disease had calretinin-positive nerve fibers in the lamina propria or muscularis mucosae, and all 5 patients with Hirschsprung disease had no calretinin staining of nerves. Conclusions.—In this retrospective series, calretinin immunohistochemistry correctly predicted outcome in all instances. Although the gold standard for the diagnosis of Hirschsprung disease in rectal suction biopsies remains the evaluation of ganglion cells in a hematoxylin-eosin staining with sufficient submucosa, calretinin immunohistochemistry is quite helpful in triaging further workup based on clinical suspicion.

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Stroma-derived extracellular vesicles deliver tumor-suppressive miRNAs to pancreatic cancer cells

et al. 2017

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The biology of tumor-associated stroma (TAS) in pancreatic ductal adenocarcinoma (PDAC) is not well understood. The paradoxical observation that stroma-depletion strategies lead to progression of PDAC reinforced the need to critically evaluate the functional contribution of TAS in the initiation and progression of PDAC. PDAC and TAS cells are unique in their expression of specific miRNAs, and this specific miRNA expression pattern alters host to tumor microenvironment interactions. Using primary human pancreatic TAS cells and primary xenograft PDAC cells co-culture, we provide evidence of miRNA trafficking and exchanging between TAS and PDAC cells, in a two-way, cell-contact independent fashion, via extracellular vesicles (EVs) transportation. Selective packaging of miRNAs into EVs led to enrichment of stromal specific miR-145 in EVs secreted by TAS cells. Exosomes, but not microvesicles, derived from human TAS cells demonstrated a tumor suppressive role by inducing PDAC cell apoptosis. This effect was mitigated by anti-miR-145 sequences. Our data suggest that TAS-derived miRNAs are delivered to adjacent PDAC cells via exosomes and suppress tumor cell growth. These data highlight that TAS cells secrete exosomes carrying tumor suppressive genetic materials, a possible anti-tumor capacity. Future work of the development of patient-derived exosomes could have therapeutic implications for unresectable PDAC.

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David Gonzálo

Gene expression profiling of serrated polyps identifies annexin A10 as a marker of a sessile serrated adenoma/polyp

Serrated lesions of the appendix frequently harbor KRAS mutations and not BRAF mutations indicating a distinctly different serrated neoplastic pathway in the appendix

Isolation of Pancreatic Cancer Cells from a Patient-Derived Xenograft Model Allows for Practical Expansion and Preserved Heterogeneity in Culture

Hirschsprung Disease and Use of Calretinin in Inadequate Rectal Suction Biopsies

Stroma-derived extracellular vesicles deliver tumor-suppressive miRNAs to pancreatic cancer cells

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