Abstract
Transient Receptor Potential mucolipin (TRPML) channels are implicated in endolysosomal trafficking, lysosomal Ca(2+) and Fe(2+) release, lysosomal biogenesis, and autophagy. Mutations in human TRPML1 cause the lysosome storage disease, mucolipidosis type IV (MLIV). Unlike vertebrates, which express three TRPML genes, TRPML1-3, the Drosophila genome encodes a single trpml gene. Although the trpml-deficient flies exhibit cellular defects similar to those in mammalian TRPML1 mutants, the biophysical properties of Drosophila TRPML channel remained uncharacterized. Here, we show that transgenic expression of human TRPML1 in the neurons of Drosophila trpml mutants partially suppressed the pupal lethality phenotype. When expressed in HEK293 cells, Drosophila TRPML was localized in both endolysosomes and plasma membrane and was activated by phosphatidylinositol 3,5-bisphosphate (PI(3,5)P2) applied to the cytoplasmic side in whole lysosomes and inside-out patches excised from plasma membrane. The PI(3,5)P2-evoked currents were blocked by phosphatidylinositol 4,5-bisphosphate (PI(4,5)P2), but not other phosphoinositides. Using TRPML A487P, which mimics the varitint-waddler (Va) mutant of mouse TRPML3 with constitutive whole-cell currents, we show that TRPML is biphasically regulated by extracytosolic pH, with an optimal pH about 0.6 pH unit higher than that of human TRPML1. In addition to monovalent cations, TRPML exhibits high permeability to Ca(2+), Mn(2+), and Fe(2+), but not Fe(3+). The TRPML currents were inhibited by trivalent cations Fe(3+), La(3+), and Gd(3+). These features resemble more closely to mammalian TRPML1 than TRPML2 and TRPML3, but with some obvious differences. Together, our data support the use of Drosophila for assessing functional significance of TRPML1 in cell physiology.
Highlights
Drosophila trpml mutants reproduced many defects associated with mucolipidosis type IV, but the fly Transient Receptor Potential mucolipin (TRPML) channel remains uncharacterized
To help confirm the expression in Drosophila cells, an HA tag was added to the C terminus of human TRPML1 (UAS-hTRPML1::HA), and the transgene was first introduced into fat bodies of wild type flies using cg-GAL4 because this cell type is enriched in endolysosomes and known to express TRPML [27]
Immunostaining using an anti-HA antibody revealed strong fluorescence signals surrounding intracellular vesicles labeled by LysoTracker only in fat bodies dissected from larvae expressing hTRPML1::HA but not in tissues dissected from control flies (Fig. 1A), demonstrating that
Summary
Drosophila trpml mutants reproduced many defects associated with mucolipidosis type IV, but the fly TRPML channel remains uncharacterized. Results: Drosophila TRPML is a phosphoinositide-regulated cation channel on endolysosome and plasma membranes. Functional Characterization of Drosophila TRPML with the varitint-waddler (Va) phenotype lacks the Naϩ inhibition and shows constitutive inwardly rectifying cation currents on the plasma membrane (13, 16 –18). In Drosophila, disruption of the only trpml gene resulted in similar, but more severe, defects as compared with human MLIV, including defective autophagy due to diminished fusion of late-endosomes and amphisomes with lysosomes, impaired synaptic transmission, accumulation of apoptotic cells, oxidative stress, lipofuscin accumulation, mitochondrial dysfunction, motor defects, and massive neurodegeneration [1, 26,27,28]. The “Va” mutant of Drosophila TRPML is constitutively active on the plasma membrane and is permeable to Kϩ, Naϩ, Csϩ, Ca2ϩ, Mn2ϩ, and Fe2ϩ, but blocked by trivalent cations, Fe3ϩ and La3ϩ and Gd3ϩ. The channel displays a bell-shaped dependence on extracytosolic pH, which is significantly left shifted as compared with that of human TRPML1
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