Snf1 Mediated Phosphorylation and Activation of PAS Kinase

Badal, Bryan D.

01 September 2014

Nutrient sensing kinases sense available nutrients and regulate cell activity accordingly. Three of these enzymes are AMP regulated kinase (AMPK, or Snf1 in yeast), PAS kinase, and target of rapamycin (TOR), are conserved from yeast to man and have overlapping function. AMPK and Snf1 are important in sensing when nutrient status in the cell is low and down regulating energy consuming pathways. PAS kinase is required for glucose homeostasis in the cell, and responds to glucose levels. TOR senses nutrients such as amino acids and upregulates cell growth pathways primarily through protein synthesis. Due to the varying nature of these enzymes, cross talk is expected in order for the cell to properly regulate cellular metabolism and growth in response to energy and nutrient availability. Previous studies have shown that activation of yeast PAS kinase under nutrient stress conditions requires the presence of Snf1. The aim of this thesis is to determine whether Snf1 directly phosphorylates and activates PAS kinase through both in vivo and in vitro approaches. PAS kinase was found to require Snf1 for both activation and phosphorylation in vivo. In vitro kinase assays were also performed to confirm a direct phosphorylation event. The results from this study support the direct phosphorylation and activation of PAS kinase by Snf1, linking cellular energy status to glucose allocation.

nutrient sensing kinases

target of rapamycin (TOR)

AMP regulated kinase (AMPK)

PAS kinase (PSK or PASK)

Osh7

cellular metabolism

Microbiology

SNFing Glucose to PASs Mitochondrial Dysfunction: The Role of Two Sensory Protein Kinases in Metabolic Diseases

Ong, Kai Li

01 July 2019

Mitochondria is no longer viewed as merely a powerhouse of the cell. It is now apparentthat mitochondria play a central role in signaling, maintaining cellular homeostasis and cell fate.Mitochondrial dysfunction has been linked to many human diseases caused by cellular metabolicderegulation, such as obesity, diabetes, neurodegenerative disease, cardiovascular disease andcancer. Eukaryotic organisms have evolved an efficient way in sensing, communicating andresponding to cellular stress and regulating mitochondrial activity correspondingly through acomplex network of intercommunicating protein kinases and their downstream effectors. Thisdissertation focuses on the interplay of two of the master metabolic regulators in the cell: AMPKand PASK, and characterization of the functions of their downstream substrates: OSBP andMED13. AMPK is an energy sensing kinase that maintains energy homeostasis in the cell,whereas PASK is a nutrient sensing kinase that regulates glucose partitioning and respiration inthe cell. Both kinases play important roles in mitochondrial function and regulation, anddeficiency in either kinase has been found to associate with various human pathologies. Furthercharacterization of the cross-talk and molecular mechanisms of both kinases in controllingmitochondrial health and function may aid in the identification of new targets for treatingmetabolic diseases.

mitophagy

Life Sciences

Molecular Biology