MGSE Regulates Crosstalk from the Mucin Pathway to the TFE3 Pathway of the Golgi Stress Response

The Golgi apparatus is an organelle where membrane or secretory proteins receive post-translational modifications such as glycosylation and sulfation, after which the proteins are selectively transported to their final destinations through vesicular transport. When the synthesis of secretory or memb...

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Bibliographic Details
Published in:Cell Structure and Function 2019, Vol.44(2), pp.137-151
Main Authors: Jamaludin, Mohamad Ikhwan, Wakabayashi, Sadao, Taniguchi, Mai, Sasaki, Kanae, Komori, Ryota, Kawamura, Hirotada, Takase, Hayataka, Sakamoto, Miyu, Yoshida, Hiderou
Format: Article
Language:English
Subjects:
Apoptosis
Basic Helix-Loop-Helix Leucine Zipper Transcription Factors - metabolism
Cell survival
Cellular stress response
Enzymes
Glycosylation
Golgi Apparatus - genetics
Golgi Apparatus - metabolism
Golgi cells
Golgi stress
HeLa Cells
HT29 Cells
Humans
Membrane proteins
Mucin
Mucins - genetics
Mucins - metabolism
Mutagenesis
organelle autoregulation
organelle zone
Plasmids
Point Mutation
Post-translation
Protein transport
Proteins
Proteoglycans
Response Elements - genetics
Sensors
TFE3
Transcription factors
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Summary:The Golgi apparatus is an organelle where membrane or secretory proteins receive post-translational modifications such as glycosylation and sulfation, after which the proteins are selectively transported to their final destinations through vesicular transport. When the synthesis of secretory or membrane proteins is increased and overwhelms the capacity of the Golgi (Golgi stress), eukaryotic cells activate a homeostatic mechanism called the Golgi stress response to augment the capacity of the Golgi. Four response pathways of the Golgi stress response have been identified, namely the TFE3, CREB3, HSP47, and proteoglycan pathways, which regulate the general function of the Golgi, apoptosis, cell survival, and proteoglycan glycosylation, respectively. Here, we identified a novel response pathway that augments the expression of glycosylation enzymes for mucins in response to insufficiency in mucin-type glycosylation in the Golgi (mucin-type Golgi stress), and we found that expression of glycosylation enzymes for mucins such as GALNT5, GALNT8, and GALNT18 was increased upon mucin-type-Golgi stress. We named this pathway the mucin pathway. Unexpectedly, mucin-type Golgi stress induced the expression and activation of TFE3, a key transcription factor regulating the TFE3 pathway, suggesting that the activated mucin pathway sends a crosstalk signal to the TFE3 pathway. We identified an enhancer element regulating transcriptional induction of TFE3 upon mucin-type Golgi stress, and named it the mucin-type Golgi stress response element, of which consensus was ACTTCC(N9)TCCCCA. These results suggested that crosstalk from the mucin pathway to the TFE3 pathway has an important role in the regulation of the mammalian Golgi stress response.Key words: Golgi stress, mucin, TFE3, organelle autoregulation, organelle zone
ISSN:0386-7196
1347-3700
DOI:10.1247/csf.19009