Alison Julio , Tainan C. Guedes-Silva , Mateus Berni , Paulo Mascarello Bisch , Helena Araujo
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One locus encoding each of the <em>CalpC, CalpD</em> and <em>Calp7</em> families, and seven Calpain A/B loci are present in the <em>R. prolixus</em> genome. Several predicted <em>R. prolixus</em> Calpains display a unique architecture, such as loss of Calcium-binding EF-hand domains and loss of catalytic residues in the active site CysPc domain, yielding catalytically dead Calpains A/B. Knockdown for one of these inactive Calpains results in embryonic DV patterning defects, with expansion of ventral and lateral gene expression domains and consequent failure of germ band elongation. In conclusion, our results reveal that Calpains may exert a conserved function in insect DV patterning, despite the changing role of the Toll and BMP pathways in defining gene expression territories along the insect DV axis.</p></div>","PeriodicalId":34629,"journal":{"name":"Current Research in Insect Science","volume":"6 ","pages":"Article 100094"},"PeriodicalIF":2.2000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2666515824000246/pdfft?md5=41d2c9ae156f861f2c8a2994a9f035f0&pid=1-s2.0-S2666515824000246-main.pdf","citationCount":"0","resultStr":"{\"title\":\"A Rhodnius prolixus catalytically inactive Calpain protease patterns the insect embryonic dorsal-ventral axis\",\"authors\":\"Alison Julio , Tainan C. 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One locus encoding each of the <em>CalpC, CalpD</em> and <em>Calp7</em> families, and seven Calpain A/B loci are present in the <em>R. prolixus</em> genome. Several predicted <em>R. prolixus</em> Calpains display a unique architecture, such as loss of Calcium-binding EF-hand domains and loss of catalytic residues in the active site CysPc domain, yielding catalytically dead Calpains A/B. Knockdown for one of these inactive Calpains results in embryonic DV patterning defects, with expansion of ventral and lateral gene expression domains and consequent failure of germ band elongation. 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引用次数: 0
摘要
钙依赖性钙蛋白酶是一种调节酶,在细胞周期控制、发育和免疫中发挥着重要作用。在黑腹果蝇模型中,钙蛋白酶 A 能裂解 Cactus/IkappaB,从而在胚胎背-腹(DV)模式化过程中改变 Toll 信号。在这里,我们探讨了钙蛋白酶在半翅目昆虫 Rhodnius prolixus 中的作用,在这种中间胚带昆虫中,骨形态发生蛋白(BMP)而不是 Toll 通路在 DV 形态形成中起着主要作用。从等翅目到双翅目的钙蛋白酶系统进化分析表明,R. prolixus 基因组和其他半代谢物种中的钙蛋白酶序列有所增加。在 R. prolixus 基因组中,CalpC、CalpD 和 Calp7 家族各有一个编码基因座,还有 7 个 Calpain A/B 基因座。几个预测的 R. prolixus 钙蛋白酶显示出独特的结构,例如钙结合 EF-手结构域的缺失和活性位点 CysPc 结构域催化残基的缺失,从而产生了无催化作用的钙蛋白酶 A/B。敲除其中一种无活性的钙蛋白酶会导致胚胎 DV 形态缺陷,腹侧和侧向基因表达域扩大,从而导致胚芽带伸长失败。总之,我们的研究结果表明,尽管 Toll 和 BMP 通路在沿昆虫 DV 轴确定基因表达区域方面的作用发生了变化,但钙蛋白酶可能在昆虫 DV 花纹形成中发挥着保守的功能。
A Rhodnius prolixus catalytically inactive Calpain protease patterns the insect embryonic dorsal-ventral axis
The calcium dependent Calpain proteases are modulatory enzymes with important roles in cell cycle control, development and immunity. In the fly model Drosophila melanogaster Calpain A cleaves Cactus/IkappaB and consequently modifies Toll signals during embryonic dorsal-ventral (DV) patterning. Here we explore the role of Calpains in the hemiptera Rhodnius prolixus, an intermediate germband insect where the Bone Morphogenetic Protein (BMP) instead of the Toll pathway plays a major role in DV patterning. Phylogenetic analysis of Calpains in species ranging from Isoptera to Diptera indicates an increase of Calpain sequences in the R. prolixus genome and other hemimetabolous species. One locus encoding each of the CalpC, CalpD and Calp7 families, and seven Calpain A/B loci are present in the R. prolixus genome. Several predicted R. prolixus Calpains display a unique architecture, such as loss of Calcium-binding EF-hand domains and loss of catalytic residues in the active site CysPc domain, yielding catalytically dead Calpains A/B. Knockdown for one of these inactive Calpains results in embryonic DV patterning defects, with expansion of ventral and lateral gene expression domains and consequent failure of germ band elongation. In conclusion, our results reveal that Calpains may exert a conserved function in insect DV patterning, despite the changing role of the Toll and BMP pathways in defining gene expression territories along the insect DV axis.