Fic-mediated AMPylation Tempers the Unfolded Protein Response During Physiological Stress

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2022 Aug 1

PMID 35914137

Authors

Amanda K Casey

Hillery F Gray

Suneeta Chimalapati

Genaro Hernandez

Andrew T Moehlman

Nathan Stewart

Hazel A Fields

Burak Gulen

Kelly A Servage

Karoliina Stefanius

Aubrie Blevins

Bret M Evers

Helmut Kramer

Kim Orth

Affiliations

Soon will be listed here.

Abstract

The proper balance of synthesis, folding, modification, and degradation of proteins, also known as protein homeostasis, is vital to cellular health and function. The unfolded protein response (UPR) is activated when the mechanisms maintaining protein homeostasis in the endoplasmic reticulum become overwhelmed. However, prolonged or strong UPR responses can result in elevated inflammation and cellular damage. Previously, we discovered that the enzyme filamentation induced by cyclic-AMP (Fic) can modulate the UPR response via posttranslational modification of binding immunoglobulin protein (BiP) by AMPylation during homeostasis and deAMPylation during stress. Loss of in leads to vision defects and altered UPR activation in the fly eye. To investigate the importance of Fic-mediated AMPylation in a mammalian system, we generated a conditional null allele of in mice and characterized the effect of loss on the exocrine pancreas. Compared to controls, mice exhibit elevated serum markers for pancreatic dysfunction and display enhanced UPR signaling in the exocrine pancreas in response to physiological and pharmacological stress. In addition, both flies and mice show reduced capacity to recover from damage by stress that triggers the UPR. These findings show that Fic-mediated AMPylation acts as a molecular rheostat that is required to temper the UPR response in the mammalian pancreas during physiological stress. Based on these findings, we propose that repeated physiological stress in differentiated tissues requires this rheostat for tissue resilience and continued function over the lifetime of an animal.

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