The mammalian phosphatidylinositol 3-phosphate 5-kinase (PIKfyve) regulates endosome-to-TGN retrograde transport

doi:10.1242/jcs.03153

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JCS ePress online publication date 5 Sep 2006
doi: 10.1242/jcs.03153

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Research Article

The mammalian phosphatidylinositol 3-phosphate 5-kinase (PIKfyve) regulates endosome-to-TGN retrograde transport

Anna C. Rutherford, Colin Traer, Thomas Wassmer, Krupa Pattni, Miriam V. Bujny, Jeremy G. Carlton, Harald Stenmark, and Peter J. Cullen^*
^* Author for correspondence (e-mail: Pete.Cullen{at}bris.ac.uk)

The yeast gene fab1 and its mammalian orthologue Pip5k3 encodethe phosphatidylinositol 3-phosphate [PtdIns(3)P] 5-kinasesFab1p and PIKfyve, respectively, enzymes that generates phosphatidylinositol3,5-bisphosphate [PtdIns(3,5)P₂]. A shared feature of fab1 ${Delta}$ yeastcells and mammalian cells overexpressing a kinase-dead PIKfyvemutant is the formation of a swollen vacuolar phenotype: a phenotypethat is suggestive of a conserved function for these enzymesand their product, PtdIns(3,5)P₂, in the regulation of endomembranehomeostasis. In the current study, fixed and live cell imaginghas established that, when overexpressed at low levels in HeLacells, PIKfyve is predominantly associated with dynamic tubularand vesicular elements of the early endosomal compartment. Moreover,through the use of small interfering RNA, it has been shownthat suppression of PIKfyve induces the formation of swollenendosomal structures that maintain their early and late endosomalidentity. Although internalisation, recycling and degradativesorting of receptors for epidermal growth factor and transferrinwas unperturbed in PIKfyve suppressed cells, a clear defectin endosome to trans-Golgi-network (TGN) retrograde trafficwas observed. These data argue that PIKfyve is predominantlyassociated with the early endosome, from where it regulatesretrograde membrane trafficking to the TGN. It follows thatthe swollen endosomal phenotype observed in PIKfyve-suppressedcells results primarily from a reduction in retrograde membranefission rather than a defect in multivesicular body biogenesis.

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