TRiC/CCT chaperonins are essential for organ growth by interacting with insulin/TOR signaling in Drosophila

Organ size is regulated by intercellular signaling for cell growth and proliferation. The TOR pathway mediates a key signaling mechanism for controlling cell size and number in organ growth. Chaperonin containing TCP-1 (CCT) is a complex that assists protein folding and function, but its role in ani...

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Bibliographic Details
Published in:Oncogene 2019-06, Vol.38 (24), p.4739-4754
Main Authors: Kim, Ah-Ram, Choi, Kwang-Wook
Format: Article
Language:English
Subjects:
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AKT protein
Analysis
Animal Structures - growth & development
Animal Structures - metabolism
Animals
Animals, Genetically Modified
Apoptosis
Cell Biology
Cell death
Cell proliferation
Cell size
Chaperonin Containing TCP-1 - physiology
Chaperonins
Chaperonins - genetics
Chaperonins - physiology
Drosophila
Drosophila - embryology
Drosophila - genetics
Drosophila - growth & development
Drosophila - metabolism
Drosophila Proteins - genetics
Drosophila Proteins - metabolism
Gene Expression Regulation, Developmental
Human Genetics
Insects
Insulin
Insulin - metabolism
Internal Medicine
Kinases
Medicine
Medicine & Public Health
Multiprotein Complexes - physiology
Oncology
Organogenesis - genetics
Phenotypes
Phosphorylation
Protein folding
RNA-mediated interference
Signal transduction
Signal Transduction - genetics
TOR Serine-Threonine Kinases - metabolism
Transcription
Wings, Animal - growth & development
Wings, Animal - metabolism
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Description
Summary:Organ size is regulated by intercellular signaling for cell growth and proliferation. The TOR pathway mediates a key signaling mechanism for controlling cell size and number in organ growth. Chaperonin containing TCP-1 (CCT) is a complex that assists protein folding and function, but its role in animal development is largely unknown. Here we show that the CCT complex is required for organ growth by interacting with the TOR pathway in Drosophila . Reduction of CCT4 results in growth defects by affecting both cell size and proliferation. Loss of CCT4 causes preferential cell death anterior to the morphogenetic furrow in the eye disc and within wing pouch in the wing disc. Depletion of any CCT subunit in the eye disc results in headless phenotype. Overgrowth by active TOR signaling is suppressed by CCT RNAi. The CCT complex physically interacts with TOR signaling components including TOR, Rheb, and S6K. Loss of CCT leads to decreased phosphorylation of S6K and S6 while increasing phosphorylation of Akt. Insulin/TOR signaling is also necessary and sufficient for promoting CCT complex transcription. Our data provide evidence that the CCT complex regulates organ growth by directly interacting with the TOR signaling pathway.
ISSN:0950-9232
1476-5594
DOI:10.1038/s41388-019-0754-1