MST4 Kinase Phosphorylates ACAP4 Protein to Orchestrate Apical Membrane Remodeling During Gastric Acid Secretion

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2017 Aug 16

PMID 28808054

Citations 14

Authors

Xiao Yuan

Phil Y Yao

Jiying Jiang

Yin Zhang

Zeqi Su

Wendy Yao

Xueying Wang

Ping Gui

McKay Mullen

Calmour Henry

Tarsha Ward

Wenwen Wang

Larry Brako

Ruijun Tian

Xuannv Zhao

Fengsong Wang

Xinwang Cao

Dongmei Wang

Xing Liu

Xia Ding

Xuebiao Yao

Affiliations

Soon will be listed here.

Abstract

Digestion in the stomach depends on acidification of the lumen. Histamine-elicited acid secretion is triggered by activation of the PKA cascade, which ultimately results in the insertion of gastric H,K-ATPases into the apical plasma membranes of parietal cells. Our recent study revealed the functional role of PKA-MST4-ezrin signaling axis in histamine-elicited acid secretion. However, it remains uncharacterized how the PKA-MST4-ezrin signaling axis operates the insertion of H,K-ATPases into the apical plasma membranes of gastric parietal cells. Here we show that MST4 phosphorylates ACAP4, an ARF6 GTPase-activating protein, at Thr Histamine stimulation activates MST4 and promotes MST4 interaction with ACAP4. ACAP4 physically interacts with MST4 and is a cognate substrate of MST4 during parietal cell activation. The phosphorylation site of ACAP4 by MST4 was mapped to Thr by mass spectrometric analyses. Importantly, phosphorylation of Thr is essential for acid secretion in parietal cells because either suppression of ACAP4 or overexpression of non-phosphorylatable ACAP4 prevents the apical membrane reorganization and proton pump translocation elicited by histamine stimulation. In addition, persistent overexpression of MST4 phosphorylation-deficient ACAP4 results in inhibition of gastric acid secretion and blockage of tubulovesicle fusion to the apical membranes. Significantly, phosphorylation of Thr enables ACAP4 to interact with ezrin. Given the location of Thr between the GTPase-activating protein domain and the first ankyrin repeat, we reason that MST4 phosphorylation elicits a conformational change that enables ezrin-ACAP4 interaction. Taken together, these results define a novel molecular mechanism linking the PKA-MST4-ACAP4 signaling cascade to polarized acid secretion in gastric parietal cells.

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