Alterations of Gut Microbiome in Untreated Chronic Lymphocytic Leukemia (CLL); Future Therapeutic Potentials

Introduction: Gut dysbiosis is an imbalance of the gut microbiome. The presence of dysbiosis can be a cause of systemic inflammation in the body or can be a contributing factor to it. Chronic systemic inflammation is a common feature of CLL, creating an environment in which CLL cells have a survival advantage. NF-κB and STAT3, master transcriptional regulators of pro-inflammatory markers, like IL-1 and IL-6, are reported to be involved in this process as are the Toll-like receptors (TLRs), key innate immunity receptors that are implicated in CLL pathophysiology. With increasing evidence for the role of dysbiosis in chronic inflammation, as well as the role of systemic inflammation in CLL, it seems relevant to prove the presence and the possible role of microbiome in the pathophysiology of CLL, to unravel the complex interaction between microbiome, nutrition and the host in patients with CLL. Our research investigate the hypothesis that dysbiosis i.e. the loss of “health-promoting” commensal gut microbes and/or the overgrowth of pathogenic bacteria distinguishes untreated patients with CLL versus aged-matched unaffected individuals. Methodology: Eight untreated CLL patients were with no history of gastrointestinal disorders, other malignancies and have not been on antibiotics for 4 weeks prior to samples collection. Two of them were not followed for logistical reasons. Six healthy volunteers matched for sex and age were also enrolled in the study. Stool samples from six patients and additional six matched healthy controls were collected and stored in a -40 freezer immediately until they were used for DNA isolation. Total genomic DNA was extracted using the Qiamp DNA stool mini kit and sequenced using Next Generation Sequencing and then analysis were done as per the manufacturer recommendations. Results: Our data indicates a reduced diversity and variability in bacterial phyla of gut microbiota in CLL patients as compare to healthy controls. Lower diversity with increase in certain bacterial types is a well-accepted sign of gut dysbiosis, which have been shown in many disorders such as; type-2 diabetes, obesity, and various autoimmune and neurological diseases. An increase in Proteobacteria numbers has been recognized as the signature of gut dysbiosis which we confirmed in our cohort of patients. Proteobacteria, Firmicutes and Bacteriodetes were also the most abundant bacterial phyla in CLL patients of our study which were reported previously in breast cance