Di Daniel_2009_BMC.Cell.Biol_10_54

Reference

Title : Evaluation of expression and function of the H+\/myo-inositol transporter HMIT - Di Daniel_2009_BMC.Cell.Biol_10_54
Author(s) : Di Daniel E , Mok MH , Mead E , Mutinelli C , Zambello E , Caberlotto LL , Pell TJ , Langmead CJ , Shah AJ , Duddy G , Kew JN , Maycox PR
Ref : BMC Cell Biol , 10 :54 , 2009
Abstract :

BACKGROUND: The phosphoinositide (PIns) signalling pathway regulates a series of neuronal processes, such as neurotransmitter release, that are thought to be altered in mood disorders. Furthermore, mood-stabilising drugs have been shown to inhibit key enzymes that regulate PIns production and alter neuronal growth cone morphology in an inositol-reversible manner. Here, we describe analyses of expression and function of the recently identified H+/myo-inositol transporter (HMIT) investigated as a potential regulator of PIns signalling.
RESULTS: We show that HMIT is primarily a neuronal transporter widely expressed in the rat and human brain, with particularly high levels in the hippocampus and cortex, as shown by immunohistochemistry. The transporter is localised at the Golgi apparatus in primary cultured neurones. No HMIT-mediated electrophysiological responses were detected in rat brain neurones or slices; in addition, inositol transport and homeostasis were unaffected in HMIT targeted null-mutant mice. CONCLUSION: Together, these data do not support a role for HMIT as a neuronal plasma membrane inositol transporter, as previously proposed. However, we observed that HMIT can transport inositol triphosphate, indicating unanticipated intracellular functions for this transporter that may be relevant to mood control.

PubMedSearch : Di Daniel_2009_BMC.Cell.Biol_10_54
PubMedID: 19607714

Related information

Citations formats

Di Daniel E, Mok MH, Mead E, Mutinelli C, Zambello E, Caberlotto LL, Pell TJ, Langmead CJ, Shah AJ, Duddy G, Kew JN, Maycox PR (2009)
Evaluation of expression and function of the H+\/myo-inositol transporter HMIT
BMC Cell Biol 10 :54

Di Daniel E, Mok MH, Mead E, Mutinelli C, Zambello E, Caberlotto LL, Pell TJ, Langmead CJ, Shah AJ, Duddy G, Kew JN, Maycox PR (2009)
BMC Cell Biol 10 :54