Severe developmental timing defects in the prothoracicotropic hormone (PTTH)-deficient silkworm, Bombyx mori

The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway...

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Published inInsect biochemistry and molecular biology Vol. 87; pp. 14 - 25
Main Authors Uchibori-Asano, Miwa, Kayukawa, Takumi, Sezutsu, Hideki, Shinoda, Tetsuro, Daimon, Takaaki
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.08.2017
Subjects
Animals
Bombyx - genetics
Bombyx - growth & development
Bombyx - metabolism
Ecdysone
Ecdysone - biosynthesis
Endocrinology
Genome editing
Hemolymph - chemistry
Insect Hormones - deficiency
Insect Hormones - genetics
Larva - growth & development
Larva - metabolism
Metamorphosis
Metamorphosis, Biological - physiology
Molting - physiology
Pupa - growth & development
Pupa - metabolism
RNA, Messenger - metabolism
Signal Transduction
Steroidogenesis
Genome editing
Steroidogenesis
Ecdysone
Metamorphosis
Endocrinology
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Abstract The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway in the PG, it is not clear whether PTTH is an essential hormone for ecdysone biosynthesis and development. To address this question, we established and characterized a PTTH knockout line in the silkworm, Bombyx mori. We found that PTTH knockouts showed a severe developmental delay in both the larval and pupal stages. Larval phenotypes of PTTH knockouts can be classified into three major classes: (i) developmental arrest during the second larval instar, (ii) precocious metamorphosis after the fourth larval instar (one instar earlier in comparison to the control strain), and (iii) metamorphosis to normal-sized pupae after completing the five larval instar stages. In PTTH knockout larvae, peak levels of ecdysone titers in the hemolymph were dramatically reduced and the timing of peaks was delayed, suggesting that protracted larval development is a result of the reduced and delayed synthesis of ecdysone in the PG. Despite these defects, low basal levels of ecdysone were maintained in PTTH knockout larvae, suggesting that the primary role of PTTH is to upregulate ecdysone biosynthesis in the PG during molting stages, and low basal levels of ecdysone can be maintained in the absence of PTTH. We also found that mRNA levels of genes involved in ecdysone biosynthesis and ecdysteroid signaling pathways were significantly reduced in PTTH knockouts. Our results provide genetic evidence that PTTH is not essential for development, but is required to coordinate growth and developmental timing. [Display omitted] •Insect PTTH activates the biosynthesis of the molting hormone ecdysone.•PTTH knockout silkworms exhibit severe defects in ecdysone biosynthesis and developmental timing.•mRNA levels of ecdysone biosynthetic genes were dramatically reduced in PTTH knockouts.•PTTH is required to coordinate growth and developmental timing.
AbstractList The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway in the PG, it is not clear whether PTTH is an essential hormone for ecdysone biosynthesis and development. To address this question, we established and characterized a PTTH knockout line in the silkworm, Bombyx mori. We found that PTTH knockouts showed a severe developmental delay in both the larval and pupal stages. Larval phenotypes of PTTH knockouts can be classified into three major classes: (i) developmental arrest during the second larval instar, (ii) precocious metamorphosis after the fourth larval instar (one instar earlier in comparison to the control strain), and (iii) metamorphosis to normal-sized pupae after completing the five larval instar stages. In PTTH knockout larvae, peak levels of ecdysone titers in the hemolymph were dramatically reduced and the timing of peaks was delayed, suggesting that protracted larval development is a result of the reduced and delayed synthesis of ecdysone in the PG. Despite these defects, low basal levels of ecdysone were maintained in PTTH knockout larvae, suggesting that the primary role of PTTH is to upregulate ecdysone biosynthesis in the PG during molting stages, and low basal levels of ecdysone can be maintained in the absence of PTTH. We also found that mRNA levels of genes involved in ecdysone biosynthesis and ecdysteroid signaling pathways were significantly reduced in PTTH knockouts. Our results provide genetic evidence that PTTH is not essential for development, but is required to coordinate growth and developmental timing. [Display omitted] •Insect PTTH activates the biosynthesis of the molting hormone ecdysone.•PTTH knockout silkworms exhibit severe defects in ecdysone biosynthesis and developmental timing.•mRNA levels of ecdysone biosynthetic genes were dramatically reduced in PTTH knockouts.•PTTH is required to coordinate growth and developmental timing.
The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway in the PG, it is not clear whether PTTH is an essential hormone for ecdysone biosynthesis and development. To address this question, we established and characterized a PTTH knockout line in the silkworm, Bombyx mori. We found that PTTH knockouts showed a severe developmental delay in both the larval and pupal stages. Larval phenotypes of PTTH knockouts can be classified into three major classes: (i) developmental arrest during the second larval instar, (ii) precocious metamorphosis after the fourth larval instar (one instar earlier in comparison to the control strain), and (iii) metamorphosis to normal-sized pupae after completing the five larval instar stages. In PTTH knockout larvae, peak levels of ecdysone titers in the hemolymph were dramatically reduced and the timing of peaks was delayed, suggesting that protracted larval development is a result of the reduced and delayed synthesis of ecdysone in the PG. Despite these defects, low basal levels of ecdysone were maintained in PTTH knockout larvae, suggesting that the primary role of PTTH is to upregulate ecdysone biosynthesis in the PG during molting stages, and low basal levels of ecdysone can be maintained in the absence of PTTH. We also found that mRNA levels of genes involved in ecdysone biosynthesis and ecdysteroid signaling pathways were significantly reduced in PTTH knockouts. Our results provide genetic evidence that PTTH is not essential for development, but is required to coordinate growth and developmental timing.
Author Kayukawa, Takumi
Uchibori-Asano, Miwa
Sezutsu, Hideki
Shinoda, Tetsuro
Daimon, Takaaki
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  givenname: Tetsuro
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  organization: Institute of Agrobiological Sciences, National Agriculture and Food Research Organization, Owashi 1-2, Tsukuba, Ibaraki, 305-8634, Japan
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Keywords Genome editing
Steroidogenesis
Ecdysone
Metamorphosis
Endocrinology
Language English
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Snippet The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG),...
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SubjectTerms Animals
Bombyx - genetics
Bombyx - growth & development
Bombyx - metabolism
Ecdysone
Ecdysone - biosynthesis
Endocrinology
Genome editing
Hemolymph - chemistry
Insect Hormones - deficiency
Insect Hormones - genetics
Larva - growth & development
Larva - metabolism
Metamorphosis
Metamorphosis, Biological - physiology
Molting - physiology
Pupa - growth & development
Pupa - metabolism
RNA, Messenger - metabolism
Signal Transduction
Steroidogenesis
Title Severe developmental timing defects in the prothoracicotropic hormone (PTTH)-deficient silkworm, Bombyx mori
URI https://dx.doi.org/10.1016/j.ibmb.2017.06.007
https://www.ncbi.nlm.nih.gov/pubmed/28627423
https://search.proquest.com/docview/1911207751
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