Abstract
When glucose is added to yeast cells that are starved for 3 days, fructose-1,6-bisphosphatase (FBPase) and malate dehydrogenase 2 are degraded in the vacuole via the vacuole import and degradation (Vid) pathway. In this study, we examined the distribution of FBPase at the ultrastructural level. FBPase was observed in areas close to the plasma membrane and in cytoplasmic structures that are heterogeneous in size and density. We have isolated these intracellular structures that contain FBPase, the Vid vesicle marker Vid24p, and the endosomal marker Pep12p. They appeared irregular in size and shape. In yeast, actin polymerization plays an important role in early steps of endocytosis. Mutants that affect actin polymerization inhibited FBPase degradation, suggesting that actin polymerization is important for FBPase degradation. Both FBPase and malate dehydrogenase 2 were associated with actin patches. Vid vesicle proteins such as Vid24p or Sec28p were also at actin patches, although they dissociated from these structures at later time points. We propose that Vid24p and Sec28p are present at actin patches during glucose starvation. Cargo proteins arrive at these sites following the addition of glucose, and the endocytic vesicles then pinch off from the plasma membrane. Following the fusion of endosomes with the vacuole, cargo proteins are then degraded in the vacuole.
Highlights
The yeast vacuole is homologous to mammalian lysosomes [15,16,17]
The presence of Sec28p in retrograde vesicles raises a number of questions. How are these vesicles formed? Are vacuole import and degradation (Vid) vesicles derived from these retrograde vesicles? Alternatively, do retrograde vesicles travel to the plasma membrane and become Vid vesicles? If the plasma membrane is the site of Vid vesicle formation and/or function, might FBPase be targeted to this location? Along these lines, early steps of endocytosis occur at the plasma membrane, and these are tightly linked to actin polymerization in yeast [43,44,45,46,47,48]
FBPase Is in Areas Near the Plasma Membrane—Previously, we demonstrated that the Vid pathway utilizes the endocytic pathway [42]
Summary
MAT␣ ura leu his trp lys ade MAT␣ ura leu his trp lys ade pep4::URA3 MAT␣ ura leu his trp lys ade VID24-HA::HIS3 MAT␣ ura LEU2 trp1⌬63 his3⌬200 GAL2 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 vph1::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 ubc1::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 end3::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 sla1::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 myo3::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 rvs161::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 rvs167::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 sac6::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 vrp1::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 vph1::kanMX4 FBPase-GFP::HIS3 MAT␣leu2⌬0 lys2⌬0 ura3⌬0 sla1::kanMX4 FBPase-GFP::HIS3 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 rvs167::kanMX4 FBPase-GFP::HIS3 MAT␣ leu2⌬0 lys2⌬0 ura3⌬0 Abp1-GFP::HIS3 MAT␣ leu2⌬0 lys2⌬0 ura3⌬0 FBPase-GFP::HIS3 MAT␣ leu2⌬0 lys2⌬0 ura3⌬0 MDH2-GFP::HIS3 MAT␣ leu2⌬0 lys2⌬0 ura3⌬0 myo3::kanMX4 MDH2-GFP::HIS3 MAT␣ his3⌬ leu2⌬0 lys2⌬0 ura3⌬0 sla1::kanMX4 Sec28p-GFP::HIS3 MAT␣ his3⌬1leu2⌬0 lys2⌬0 ura3⌬0 rvs167::kanMX4 Sec28p-GFP::HIS3 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 Sec28p-GFP::HIS3 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 GFP-Vid24p::URA3 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 rvs167::kanMX4 GFP-Vid24p::URA3 markers. Sla1p and Las17p are localized to this area early in the process This is followed by recruitment of actin and various actin-binding proteins. Proteins involved in the scission of the endocytic vesicles such as Rvs161p and Rvs167p are recruited toward the end of the process [43,44,45,46,47,48] These proteins may play an important role in FBPase degradation, if the Vid pathway utilizes early steps of endocytosis to deliver FBPase to the vacuole. FBPase and MDH2 were targeted to actin patches following the addition of glucose to starved cells. Our results suggest that yeast cells utilize early steps of the endocytic pathway and actin polymerization to deliver FBPase and MDH2 to the vacuole for degradation
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