Proteomics

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Organoid-trasplant model systems to study in vivo the effects of obesity on the pancreatic carcinogenesis


ABSTRACT: Pancreatic ductal adenocarcinoma (PDAC) is the third leading cause of cancer-related mortality among adults in developed countries. The discovery of the most common genetic alterations as well as the development of organoids models of pancreatic cancer have provided insight into the fundamental pathways driving the progression from normal cell, to non-invasive precursor lesion, to widely metastatic disease, offering new opportunities for the discovery of key activated pathways along cancer progression. Obesity is one of the most serious public health challenges of the 21st century. Several epidemiological studies have shown the positive association between obesity and cancer-related morbidity/mortality, as well as poor prognosis and poorer treatment outcome. Despite strong evidence indicates a link between obesity and cancer incidence, the molecular basis of the initiating events remains largely elusive. This is mainly due to the lack of an accurate and reliable model of pancreatic carcinogenesis that mimics human obesity-associated PDAC, making data interpretation difficult and often confusing. Here we propose, to our knowledge, the best suitable and manageable preclinical tool, based on next-generation cell culture models, to study the effects of obesity on pancreatic carcinogenesis. Therefore we tracked the effects of obesity on the natural evolution of PDAC in a genetically-defined transplantable model of syngeneic murine pancreatic preneoplastic lesion (mP) and tumor (mT) derived organoids that recapitulates the progression of human disease from early preinvasive lesions to metastatic disease. Our models indicated that both genetic- and diet-induced obesity promoted incidence engraftment rate and growth of both preneoplastic and neoplastic organoids, favoring pancreatic cancer progression and distant metastases dissemination. Our obesity models of carcinogenesis mimic the evolution of human pancreatic cancer pathology, promoting carcinogenesis and concomitant accumulation of a myeloid infiltrate. These changes in cancer immune infiltrate were also associated to a specific pattern of anti-inflammatory Th2 signature. Moreover, gene expression profile analysis revealed a change in gene expression programs that addresses cells to different pancreatic subtypes and stromal conditions. Our results suggest that organoid-derived transplants in obese mice represent a suitable system to study early step of carcinogenesis and support the hypothesis that inflammation induced by obesity stimulates tumor progression and metastatization during pancreatic carcinogenesis.

INSTRUMENT(S): TripleTOF 5600

ORGANISM(S): Mus Musculus (mouse)

TISSUE(S): Blood Serum

SUBMITTER: Marcello Manfredi  

LAB HEAD: Marcello Manfredi

PROVIDER: PXD018362 | Pride | 2020-05-26

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
Library.wiff.files.zip Wiff
Seppro_MousePP_MSsenza7abbondanti.txt Txt
mgffiles.zip Other
swath.wiff.files.zip Wiff
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Publications


Pancreatic ductal adenocarcinoma (PDAC) is the third leading cause of cancer-related mortality among adults in developed countries. The discovery of the most common genetic alterations as well as the development of organoid models of pancreatic cancer have provided insight into the fundamental pathways driving tumor progression from a normal cell to non-invasive precursor lesion and finally to widely metastatic disease, offering new opportunities for identifying the key driver of cancer evolutio  ...[more]

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