Key Laboratory of Entomology and Pest Control Engineering, College of Plant Protection, Southwest University, Chongqing, China.
Academy of Agricultural Sciences, Southwest University, Chongqing, China.
Pest Manag Sci. 2022 Aug;78(8):3384-3393. doi: 10.1002/ps.6966. Epub 2022 May 26.
Diapause is an environmentally preprogrammed period of arrested development, and characterized by metabolic depression that can occur during any development stage of insect. The insect steroid hormone 20-hydroxyecdysone (20E), is converted from ecdysone by the cytochrome P450 enzyme shade (CYP314A1), and it exerts a potent effect on the induction and maintenance of diapause in obligatory diapause insects. However, the regulatory mechanism of 20E in obligatory diapause development remains unclear. In this study, the function of 20E in the pupal diapause of Bactrocera minax was investigated.
We determined the expression pattern of Halloween P450 genes from larval to adult B. minax, and found differential expression of CYP314A1 from other P450 genes, with a high level in larvae and a low level in pupae. Dysfunction of CYP314A1 by dsCYP314A1 microinjection in third-instar larvae caused significant larval mortality or abnormal pupae. Compared with dsGFP and DEPC-water, dsCYP314A1-injected larvae had significantly reduced 20E titer and altered energy metabolism, and many individuals failed to pupate. Exogenous 20E microinjected into late third-instar larvae or 20E fed to early third-instar larvae both caused similar energy metabolism changes. The 20E-treated larvae of B. minax had reduced total lipids and increased amounts of trehalose and glycogen. Furthermore, 20E-treated diapause individuals showed rapid pupal development.
The 20E biosynthesis was regulated by the expression of CYP314A1, and was involved in the induction and termination phase of obligate diapause by regulating energy metabolism in B. minax. © 2022 Society of Chemical Industry.
滞育是一种环境预先编程的发育停滞期,其特征是代谢抑制,可以发生在昆虫的任何发育阶段。昆虫类固醇激素 20-羟基蜕皮酮(20E)由细胞色素 P450 酶阴影(CYP314A1)从蜕皮酮转化而来,它对强制性滞育昆虫的滞育诱导和维持有很强的作用。然而,20E 在强制性滞育发育中的调节机制尚不清楚。在这项研究中,研究了 20E 在双斑实蝇蛹滞育中的作用。
我们确定了从幼虫到成虫的双斑实蝇 Halloween P450 基因的表达模式,发现 CYP314A1 与其他 P450 基因的表达不同,在幼虫中高水平表达,在蛹中低水平表达。通过 dsCYP314A1 微注射在三龄幼虫中功能失调的 CYP314A1 导致显著的幼虫死亡率或异常蛹。与 dsGFP 和 DEPC 水相比,dsCYP314A1 注射的幼虫 20E 滴度显著降低,能量代谢发生改变,许多个体未能化蛹。外源性 20E 微注射到晚期三龄幼虫或 20E 喂养到早期三龄幼虫都会导致类似的能量代谢变化。20E 处理的双斑实蝇幼虫总脂减少,海藻糖和糖原增加。此外,20E 处理的滞育个体表现出快速的蛹发育。
20E 的生物合成受 CYP314A1 的表达调控,通过调节能量代谢参与了双斑实蝇强制性滞育的诱导和终止阶段。© 2022 化学工业协会。
