Project description:We report the association between CpG islander methylator phenotype (CIMP) and the gut microbiome in human colorectal cancer tumor and adjacent normal tissue.

Project description:DNA methylation is an epigenetic mark that is altered in cancer and aging tissues. The effects of extrinsic factors on DNA methylation remain incompletely understood. Microbial dysbiosis is a hallmark of colorectal cancer, and infections have been linked to aberrant DNA methylation in cancers of the GI tract. To determine the microbiota’s impact on DNA methylation, we studied the DNA methylation of colorectal mucosa in germ-free (GF, no microbiome) and specific pathogen free (SPF, controlled microbiome) mice, as well as in interleukin 10 KO mice (Il10-/-) which are prone to inflammation and tumorigenesis in the presence of a microbiome. We compared DNA methylation changes to those seen in aging, and after exposure to the colon carcinogen azoxymethane (AOM). DNA methylation changes associated with aging were accelerated in the Il10-/- /SPF mice. By contrast, AOM induced profound hypomethylation that was distinct from the effects of aging or of the microbiome. CpG sites modified by the microbiome were over-represented among DNA methylation changes in colorectal cancer. Thus, the microbiome affects the DNA methylome of colorectal mucosa in patterns reminiscent of what is observed in colorectal cancer.

Project description:Pancreatic cancer is the 3rd most prevalent cause of cancer related deaths in United states alone, with over 55000 patients being diagnosed in 2019 alone and nearly as many succumbing to it. Late detection, lack of effective therapy and poor understanding of pancreatic cancer systemically contributes to its poor survival statistics. Obesity and high caloric intake linked co-morbidities like type 2 diabetes (T2D) have been attributed as being risk factors for a number of cancers including pancreatic cancer. Studies on gut microbiome has shown that lifestyle factors as well as diet has a huge effect on the microbial flora of the gut. Further, modulation of gut microbiome has been seen to contribute to effects of intensive insulin therapy in mice on high fat diet. In another study, abnormal gut microbiota was reported to contribute to development of diabetes in Db/Db mice. Recent studies indicate that microbiome and microbial dysbiosis plays a role in not only the onset of disease but also in its outcome. In colorectal cancer, Fusobacterium has been reported to promote therapy resistance. Certain intra-tumoral bacteria have also been shown to elicit chemo-resistance by metabolizing anti-cancerous agents. In pancreatic cancer, studies on altered gut microbiome have been relatively recent. Microbial dysbiosis has been observed to be associated with pancreatic tumor progression. Modulation of microbiome has been shown to affect response to anti-PD1 therapy in this disease as well. However, most of the studies in pancreatic cancer and microbiome have remained focused om immune modulation. In the current study, we observed that in a T2D mouse model, the microbiome changed significantly as the hyperglycemia developed in these animals. Our results further showed that, tumors implanted in the T2D mice responded poorly to Gemcitabine/Paclitaxel (Gem/Pac) standard of care compared to those in the control group. A metabolomic reconstruction of the WGS of the gut microbiota further revealed that an enrichment of bacterial population involved in drug metabolism in the T2D group.

Project description:We report the association between CpG islander methylator phenotype (CIMP) and the gut microbiome in human colorectal cancer tumor and adjacent normal tissue.

Project description:Colorectal cancer is the third most common malignancy and the fourth most common cause of cancer mortality worldwide. In 2008, more than one million cases were newly diagnosed, and more than 600,000 people died from the disease. Given its slow development from removable precancerous lesions and curable early stages, screening for CRC has the potential to reduce both the incidence and mortality of the disease. However, compliance with current screening methods remains poor and there is a clear need for an accurate in vitro blood test to increase participation in colorectal cancer screening. In this study, we performed genome-wide gene expression profiling of peripheral blood samples from 100 healthy controls and 100 colorectal cancer patients using PAXgeneTM technology and Affymetrix GeneChip® microarrays. We show that monitoring gene expression in blood results in distinct transcriptional profiles between the controls and cancer patients. Thus, the microarray-based blood gene expression profiling holds great promise for developing novel biomarkers for colorectal cancer detection.

Project description:colorectal cancer microbiome

Project description:We randomly selected 60 patients who completed paclitaxel treatment for high-throughput sequencing. Grade 2 or higher (grade 2+) neuropathy has been defined as high-PIPN and Grade 1 as low-PIPN according to the National Cancer Institute Common Toxicity Criteria for Adverse Events (NCI-CTCAE version 4.0) and the European Organization for Research and Treatment of Cancer CIPN specific self-report questionnaire (EORTC QOL-CIPN20). We compared gut microbiome signatures in high-PIPN, low-PIPN, and healthy controls.

Project description:Age-dependent changes of the gut-associated microbiome have been linked to increased frailty and systemic inflammation. This study found that age-associated changes of the gut microbiome of BALB/c and C57BL/6 mice could be reverted by co-housing of aged (22 months old) and adult (3 months old) mice for 30-40 days or faecal microbiota transplantation (FMT) from adult into aged mice. This was demonstrated using high-throughput sequencing of the V3-V4 hypervariable region of bacterial 16S rRNA gene isolated from faecal pellets collected from 3-4 months old adult and 22-23 months old aged mice before and after co-housing or FMT.

Project description:We found that western diet consumption resulted in decrease in the percentage of normal Paneth cell population in wild type mice, indicating that western diet could negatively affect Paneth cell function. Subsequent generations of western diet consumption further reduced percentages of normal Paneth cell population. We performed fecal microbiota composition profiling. Male mice were used at 4-5 weeks of age. Fecal samples were collected for microbiome analysis.

Project description:Microbiome of colorectal cancer