The embryonic role of juvenile hormone in the firebrat, Thermobia domestica, reveals its function before its involvement in metamorphosis

• Published in: eLife Vol. 12
• Main Authors: Truman, James W, Riddiford, Lynn M, Konopova, Barbora, Nouzova, Marcela, Noriega, Fernando G, Herko, Michelle
• Format: Journal Article
• Language: English
• Published: England eLife Science Publications, Ltd 03.04.2024; eLife Sciences Publications Ltd; eLife Sciences Publications, Ltd
• Subjects: Abdomen; Crustaceans; Developmental Biology; differentiation; ecdysone; Embryogenesis; Embryonic development; Embryos; Evolutionary biology; Flight; Hormones; Insects; juvenile hormone; Juvenile hormones; Juveniles; Metamorphosis; Morphogenesis; myoglianin; precocene; Scientific equipment and supplies industry; Thermobia domestica; Wings; United States; myoglianin; differentiation; ecdysone; developmental biology; thermobia domestica; juvenile hormone; metamorphosis; precocene
• ISSN: 2050-084X; 2050-084X
• DOI: 10.7554/eLife.92643

To gain insights into how juvenile hormone (JH) came to regulate insect metamorphosis, we studied its function in the ametabolous firebrat, . Highest levels of JH occur during late embryogenesis, with only low levels thereafter. Loss-of-function and gain-of-function experiments show that JH acts on embryonic tissues to suppress morphogenesis and cell determination and to promote their terminal differentiation. Similar embryonic actions of JH on hemimetabolous insects with short germ band embryos indicate that JH's embryonic role preceded its derived function as the postembryonic regulator of metamorphosis. The postembryonic expansion of JH function likely followed the evolution of flight. Archaic flying insects were considered to lack metamorphosis because tiny, movable wings were evident on the thoraces of young juveniles and their positive allometric growth eventually allowed them to support flight in late juveniles. Like in , we assume that these juveniles lacked JH. However, a postembryonic reappearance of JH during wing morphogenesis in the young juvenile likely redirected wing development to make a wing pad rather than a wing. Maintenance of JH then allowed wing pad growth and its disappearance in the mature juvenile then allowed wing differentiation. Subsequent modification of JH action for hemi- and holometabolous lifestyles are discussed.