Journal article

Chemical chaperone TUDCA prevents apoptosis and improves survival during polymicrobial sepsis in mice

M Doerflinger, J Glab, C Nedeva, I Jose, A Lin, L O'Reilly, C Allison, M Pellegrini, RS Hotchkiss, H Puthalakath

Scientific Reports | NATURE PORTFOLIO | Published : 2016

Open access

Abstract

Sepsis-induced lymphopenia is a major cause of morbidities in intensive care units and in populations with chronic conditions such as renal failure, diabetes, HIV and alcohol abuse. Currently, other than supportive care and antibiotics, there are no treatments for this condition. We developed an in vitro assay to understand the role of the ER-stress-mediated apoptosis process in lymphocyte death during polymicrobial sepsis, which was reproducible in in vivo mouse models. Modulating ER stress using chemical chaperones significantly reduced the induction of the pro-apoptotic protein Bim both in vitro and in mice. Furthermore, in a two-hit' pneumonia model in mice, we have been able to demonstr..

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University of Melbourne Researchers

Grants

Awarded by National Institute of General Medical Sciences


Funding Acknowledgements

We would like to acknowledge LARTF staff and AEC chair Prof. Ian Robinson for their help in conducting animal experimentations. MD and CN are supported by LTU PhD scholarship and this project was funded by an Australian National Health and Medical Research Council Project grant APP1085328 (HP) and Cancer Australia and Cancer Council New South Wales project grant #1047672 (LOR).