Long non-coding RNAs (lncRNAs) are implicated in the complex network of cancer including Multiple myeloma (MM) and play important roles in tumor development. lncH19 was significantly up-regulated in multiple cancer types, suggesting it is a potential oncogene. However, the exact functions and downstream mechanisms are largely unknown. This study aimed to investigate whether H19 participates in the cell growth of MM and elucidate the underlying mechanism. We found that H19 was abnormally overexpressed in MM cell lines and sorted CD138+ MM bone marrow tissues. H19 knockdown induced by shRNA transfection significantly inhibited proliferation, viability and colony formation in MM cells, as well as inactivated NF-κB pathway. Moreover, combination treatment of H19 knockdown and NF-κB suppression (induced by specific inhibitor PDTC) produced synergistically inhibitory effects. Bone marrow expression of H19 was positively associated with circulating IL-6 or IL-8 level in the same MM patients. And patients with high expression of H19 had a lower survival rate. Taken together, we confirmed the abnormal upregulation of a novel lncRNA, H19, in human MM. H19 was involved in MM cell growth. The linkage between H19 and NF-κB pathway may provide a novel interpretation for the mechanism of H19’s growth regulation in MM.
Gut microbiota and dietary fiber are critical for protecting body from obesity, diabetes and cancer. Butyrate, produced in the gut by bacterial fermentation of dietary fibers, is demonstrated to be protective against the development of colorectal cancer as a histone deacetylase (HDAC) inhibitor. We report that high-fiber diet and butyrate significantly inhibited the growth lymphoma tumors. Butyrate induced apoptosis of lymphoma tumor cells and significantly up-regulated histone 3 acetylation (H3ac) level and target genes such as Fas, P21, P27. Our results unravel an instrumental role of fiber diet and their metabolites on lymphoma tumor and demonstrate an intervention potential on the prevention and therapy of lymphoma.
1. Nilotinib, a tyrosine kinase inhibitor, could potently inhibit SN-38 glucuronidation mainly catalyzed by UDP-glucuronosyltransferase (UGT) 1A1. This study was designed to investigate whether nilotinib can be used as a selective inhibitor of UGT1A1 in human liver. 2. Assays with recombinant UGTs indicated that nilotinib could strongly inhibit the activity of UGT1A1 and decreased the activity of extra-hepatic UGT1A7 to a much lesser extent. The inhibition on 4-methylumbelliferone (4Mu) glucuronidation by recombinant UGT1A1 obeyed competitive inhibition mechanism, with a kinetic constants (Ki) value of 0.17 μM. Assays with human liver microsomes (HLM) demonstrated that nilotinib could selectively inhibit estradiol-3-O-glucuronidation (E2-3-O-glucuronidation), a probe reaction of UGT1A1. Kinetic studies displayed that the inhibition on E2-3-O-glucuronidation followed non-competitive inhibition model, different from the inhibition on 4Mu glucuronidation. The Ki values were calculated to be 0.14 and 0.53 μM, depending on the enzyme sources of recombinant UGT1A1 or HLM, respectively. 3. Given that UGT1A7 is an extra-hepatic enzyme, this study indicates that nilotinib can be used as a selective inhibitor of UGT1A1 in human liver.
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