Journal article
An in vitro paradigm for diabetic cerebral oedema and its therapy: A critical role for taurine and water channels
IH Koves, VC Russo, S Higgins, A Mishra, J Pitt, FJ Cameron, GA Werther
Neurochemical Research | SPRINGER/PLENUM PUBLISHERS | Published : 2012
Abstract
The pathophysiology of cerebral oedema (CE) in diabetic ketoacidosis (DKA) remains enigmatic. We investigated the role of the idiogenic osmol taurine and aquaporin channels in an in vitro model, the SH-SY5Y neuroblastoma cell line, by sequentially mimicking DKA-like hyperglycemia/hypertonicity and hypotonic fluid therapy. Exposure to DKA-like hyperosmolarity led to shrinkage, while hypotonic fluid exposure led to cell swelling and impaired viability. Low sodium compensated in part for elevated glucose, pointing to a critical role for overall osmolality. Taurine, was synthesized and retained intracellularly during DKA-like hypertonicity, and released during hypotonicity, in part mitigating ne..
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Funding Acknowledgements
These studies were supported by a grant in aid from the Australasian Paediatric Endocrine Group (APEG) sponsored by Novo Nordisk to IHK, VCR, FJC and GAW. IHK was a recipient of a University of Melbourne Research Scholarship. We also wish to thank Miss Elena Andaloro, Centre for Hormone Research, Murdoch Childrens Research Institute, for her excellent technical assistance.