Abstract
Complete metamorphosis (Holometaboly) is a key innovation that underlies the spectacular success of holometabolous insects. Phylogenetic analyses indicate that Holometabola form a monophyletic group that evolved from ancestors exhibiting hemimetabolous development (Hemimetaboly). However, the nature of the changes underlying this crucial transition, including the occurrence of the holometabolan-specific pupal stage, is poorly understood. Using the holometabolous beetle Tribolium castaneum as a model insect, here we show that the transient up-regulation of the anti-metamorphic Krüppel-homolog 1 (TcKr-h1) gene at the end of the last larval instar is critical in the formation of the pupa. We find that depletion of this specific TcKr-h1 peak leads to the precocious up-regulation of the adult-specifier factor TcE93 and, hence, to a direct transformation of the larva into the adult form, bypassing the pupal stage. Moreover, we also find that the TcKr-h1-dependent repression of TcE93 is critical to allow the strong up-regulation of Broad-complex (TcBr-C), a key transcription factor that regulates the correct formation of the pupa in holometabolous insects. Notably, we show that the genetic interaction between Kr-h1 and E93 is also present in the penultimate nymphal instar of the hemimetabolous insect Blattella germanica, suggesting that the evolution of the pupa has been facilitated by the co-option of regulatory mechanisms present in hemimetabolan metamorphosis. Our findings, therefore, contribute to the molecular understanding of insect metamorphosis, and indicate the evolutionary conservation of the genetic circuitry that controls hemimetabolan and holometabolan metamorphosis, thereby shedding light on the evolution of complete metamorphosis.
Highlights
Insects are, by far, the most successful and diversified animal group, with more than two million species described
By using Tribolium castaneum, we report that the crosstalk between Krüppel-homolog 1 (Kr-h1), E93 and Broad-Complex genes at the end of PLOS Genetics | DOI:10.1371/journal.pgen
A distinguishing event in T. castaneum is the up-regulation of the anti-metamorphic Krüppel-homolog 1 (TcKr-h1) expression during the prepupal stage at the end of the final (L7) larval instar (S1 Fig), suggesting that this Kr-h1 prepupal elevation might be a key event in the evolution of complete metamorphosis
Summary
By far, the most successful and diversified animal group, with more than two million species described (approximately half of all animal species reported). Whereas the origin, evolution and development of wings have been investigated intensively [3,4,5], less data is available on the origin and evolution of complete metamorphosis [6,7,8,9] Since their origination from arthropod ancestors, approximately 479 million years ago (Ma) [10], insects have undergone extreme evolution in their postembryonic development, emerging different types of metamorphosis: ametaboly, hemimetaboly and holometaboly [6,11]. The most primitive type is ametaboly, in which immature individuals are miniature versions of the wingless adult form and sexual maturity is achieved through successive molts. In holometabolous insects the immature larva undergoes a complete morphological transformation to form the adult. Despite the relevance of complete metamorphosis in the taxonomic success of Holometabola, the nature of the changes underlying the appearance of the holometabolan pupa remains a puzzling problem in evolutionary and developmental biology
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