The Role of HMGB1 in the Pathogenesis of Mesothelioma
University Of Hawaii At Manoa, Honolulu HI
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Abstract
DESCRIPTION (provided by applicant): MM is particularly frequent (5-10% incidence) in cohorts of asbestos and/or erionite exposed individuals. Genetics also plays a role and in some high-risk MM families in the US and in Cappadocia, Turkey that were exposed to these minerals, over 50% of family members have died of MM. There is a long latency period between the time from initial exposure to MM diagnosis and the precise mechanism(s) of asbestos-induced cell transformation have yet to be elucidated. Previous studies suggest that chronic inflammation may be causally linked to MM and we have shown that asbestos-induced TNF-alpha signaling results in the activation of NF-kB signaling that leads to increased survival of HM, thereby increasing the pool of asbestos-damaged human mesothelial cells (HM) that are susceptible to malignant transformation. However, the potential link between mechanisms of asbestos-induced cytotoxicity and carcinogenesis are unclear. Our most recent publication shows that HM cell death caused by asbestos is a regulated form of necrosis that results in the release of a damage-associated molecular pattern, called HMGB1, into the extra-cellular space, which initiates inflammation. The data suggest that HMGB1 may be the master switch by which the chronic inflammation necessary for asbestos-induced MM is initiated. However, the precise mechanism(s) by which HMGB1 induces the release of TNF-alpha and induces transformation of mesothelial cells is unknown. Furthermore, whether inhibition of HMGB1 can prevent the secretion of inflammatory molecules so as to prevent/delay the onset of MM, or whether this strategy has the potential to be used therapeutically has not been studied. Here, we will elucidate the mechanism(s) by which HMGB1 contributes to asbestos-induced initiation, maintenance and progression of MM. We hypothesize that upon asbestos exposure, the HMGB1-induced inflammatory response is essential to transformation of HM into MM via NF-kB signaling, that HMGB1 is necessary for maintaining the malignant cell phenotype and that inhibition of HMGB1 may be used to prevent or treat MM. To test the hypothesis, the following aims will be addressed: (1) Elucidate the mechanism by which HMGB1 contributes to asbestos-induced transformation of HM cells. (2) Determine whether inhibiting HMGB1 prevents or delays the onset of asbestos-induced MM. (3) Elucidate the role of HMGB1 in the maintenance and progression of MM and evaluate the potential for inhibition of HMGB1 as a therapeutic intervention. To accomplish these aims, we will use both in vitro and in vivo models and determine whether HMGB1 inhibitors prevent the secretion of inflammatory molecules, which HMGB1 receptor(s) play a critical role in transformation of HM cells, whether HMGB1 activates NF-kB signaling and whether specific inhibition of HMGB1 reduces asbestos-induced inflammation and either prevents MM. Finally, we will determine the effects of HMGB1 and HMGB1 inhibitors on the migration, invasion and colony formation of MM cells and assess the potential of inhibiting HMGB1 for MM therapy.
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