Spastic paraplegia proteins spastizin and spatacsin mediate autophagic lysosome reformation
Jaerak Chang, Seongju Lee, Craig Blackstone
Jaerak Chang, Seongju Lee, Craig Blackstone
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Research Article Neuroscience

Spastic paraplegia proteins spastizin and spatacsin mediate autophagic lysosome reformation

Abstract

Autophagy allows cells to adapt to changes in their environment by coordinating the degradation and recycling of cellular components and organelles to maintain homeostasis. Lysosomes are organelles critical for terminating autophagy via their fusion with mature autophagosomes to generate autolysosomes that degrade autophagic materials; therefore, maintenance of the lysosomal population is essential for autophagy-dependent cellular clearance. Here, we have demonstrated that the two most common autosomal recessive hereditary spastic paraplegia gene products, the SPG15 protein spastizin and the SPG11 protein spatacsin, are pivotal for autophagic lysosome reformation (ALR), a pathway that generates new lysosomes. Lysosomal targeting of spastizin required an intact FYVE domain, which binds phosphatidylinositol 3-phosphate. Loss of spastizin or spatacsin resulted in depletion of free lysosomes, which are competent to fuse with autophagosomes, and an accumulation of autolysosomes, reflecting a failure in ALR. Moreover, spastizin and spatacsin were essential components for the initiation of lysosomal tubulation. Together, these results link dysfunction of the autophagy/lysosomal biogenesis machinery to neurodegeneration.

Authors

Jaerak Chang, Seongju Lee, Craig Blackstone

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Figure 10

Spastizin and spatacsin interact with PI4KB.

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Spastizin and spatacsin interact with PI4KB. (A) HeLa cells were transfe...
(A) HeLa cells were transfected with siCTL or siPI4KB siRNAs and then coimmunostained for spastizin (green) and LAMP1 (red). Merged images are to the right. (B) HeLa cells were transfected with siCTL, siSPG15, or siSPG11 siRNAs and then lysates were immunoblotted as shown. (C) Cells from B were coimmunostained for PI4KB (green) and GM130 (red). (D) Myc-PI4KB was coexpressed with HA vector, HA-spastizin, or HA-spatacsin in HEK293T cells, and lysates were immunoprecipitated and immunoblotted with the indicated antibodies (right). (E) Myc-PI4KB was coexpressed with indicated HA-spastizin wild-type or mutant constructs in HEK293T cells, and lysates were immunoprecipitated and immunoblotted with the indicated antibodies. (F) Myc-PI4KB was coexpressed with HA vector or indicated HA-spastizin truncation mutants in HEK293T cells, and lysates were immunoprecipitated (anti-HA) and immunoblotted for HA- and Myc-epitopes. Scale bar: 10 μm. Arrows identify specific proteins, while asterisks denote the IgG heavy chain. Molecular weight standards (in kDa) are shown to the left in B and DF.