Photoperiod and temperature separately regulate nymphal development through JH and insulin/TOR signaling pathways in an insect

Photoperiod and temperature separately regulate nymphal development through JH and insulin/TOR signaling pathways in an insect

Insects living in the temperate zone enter a physiological state of arrested or slowed development to overcome an adverse season, such as winter. Developmental arrest, called diapause, occurs at a species-specific developmental stage, and embryonic and pupal diapauses have been extensively studied i...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 117; no. 10; pp. 5525 - 5531
Main Authors: Miki, Taiki, Shinohara, Tsugumichi, Chafino, Silvia, Noji, Sumihare, Tomioka, Kenji
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 10-03-2020
Subjects:
Biological Sciences
Developmental stages
Diapause
Embryos
Gene expression
Growth rate
Insects
Insulin
Juvenile hormones
Life cycles
Low temperature
Metamorphosis
Overwintering
Rapamycin
Signal transduction
Signaling
TOR protein
nymphal development
temperature
myo
insulin/TOR signaling pathway
photoperiod
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Summary:Insects living in the temperate zone enter a physiological state of arrested or slowed development to overcome an adverse season, such as winter. Developmental arrest, called diapause, occurs at a species-specific developmental stage, and embryonic and pupal diapauses have been extensively studied in mostly holometabolous insects. Some other insects overwinter in the nymphal stage with slow growth for which the mechanism is poorly understood. Here, we show that this nymphal period of slow growth is regulated by temperature and photoperiod through separate pathways in the cricket Modicogryllus siamensis. The former regulates the growth rate, at least in part, through the insulin / target of rapamycin (TOR) signaling pathway. Lower temperature downregulates the expression of insulin-like peptide (Ms’Ilp) and Target of rapamycin (Ms’Tor) genes to slow down the growth rate without affecting the number of molts. The latter regulates the number of molts independent of temperature. Short days increase the number of molts through activation of the juvenile hormone (JH) pathway and down-regulation of myoglianin (Ms’myo), a member of the TGFβ family, which induces adult metamorphosis. In contrast, long days regulate Ms’myo expression to increase during the fifth to sixth instar to initiate adult metamorphosis. When Ms’myo expression is suppressed, juvenile hormone O-methyl transferase (Ms’jhamt) was up-regulated and increased molts to prolong the nymphal period even under long-day conditions. The present findings suggested that the photoperiod regulated Ms’myo, and the JH signaling pathway and the temperature-controlled insulin/TOR pathway cooperated to regulate nymphal development for overwintering to achieve seasonal adaptation of the life cycle in M. siamensis.
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1T.M. and T.S. contributed equally to this work.
Author contributions: T.M. and K.T. designed research; T.M., T.S., and S.C. performed research; T.M., T.S., S.N., and K.T. analyzed data; and T.M., S.C., and K.T. wrote the paper.
Edited by David L. Denlinger, The Ohio State University, Columbus, OH, and approved February 3, 2020 (received for review December 30, 2019)
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1922747117