Expansion of Drosophila haemocytes using a conditional GeneSwitch driver affects larval haemocyte function, but does not modulate adult lifespan or survival from infection

Dan J Hayman, Lola M Morrin, Sudipta Halder, Eleanor J Phillips, Mirre J P Simons, Iwan Robert Evans
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Abstract

Macrophages are responsible for diverse and fundamental functions in vertebrates. Fruit flies harbour an innate immune system of which the most populous blood cell (haemocyte) type bears striking homology to the vertebrate macrophage. The importance of these cells has been demonstrated previously, where immune and developmental phenotypes have been observed upon haemocyte ablation using pro-apoptotic transgenes driven by the Hml promoter. Here we show that, as well as ablating Hml-positive cells in vivo using the pro-apoptotic transgene bax, we can also increase Hml-positive cell numbers using a constitutively-active form of ras. However, in adults, compared to larvae, total blood cell numbers were not significantly affected by experimental expansion or ablation. This therefore implies the existence of feedback mechanisms which regulate the number of haemocytes. No effect on lifespan was observed from driving ras and bax in Hml-positive cells using a conditional genetic system (Hml-GeneSwitch). Using a constitutive driver system, we did observe differences in lifespan, however we attribute this to differences in genetic background that could have led to spurious conclusions. Additionally, no effect of either transgene was observed upon infection with two different bacterial species, although a striking pupal lethality phenotype was observed upon expansion of Hml-positive cells in the context of a self-encapsulation mutant genetic background. The latter confirms that the change in Hml-positive cell number does result in a phenotype. The lack of adult phenotypes could be due to the strength of our experimental manipulation or due to compensation via feedback mechanisms that operate to maintain total blood cell numbers. Our study demonstrates the importance of a conditional approach to modulate haemocyte cell numbers in vivo which allows for more precise study of innate immune system function. This approach could be especially fruitful to uncover the mechanisms that regulate total blood cell numbers across development and ageing.
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使用条件性基因开关驱动程序扩增果蝇血细胞会影响幼虫血细胞的功能,但不会影响成虫的寿命或感染后的存活率
巨噬细胞在脊椎动物中具有多种基本功能。果蝇具有先天性免疫系统,其中最多的血细胞(血细胞)类型与脊椎动物的巨噬细胞有着惊人的同源性。这些细胞的重要性已在之前的研究中得到证实,在使用由 Hml 启动子驱动的促凋亡转基因消减血细胞后,可以观察到免疫和发育表型。在这里,我们发现除了使用促凋亡转基因 bax 消减体内 Hml 阳性细胞外,我们还可以使用组成型活性 ras 增加 Hml 阳性细胞的数量。然而,与幼虫相比,成虫的血细胞总数并未受到实验性扩增或消融的显著影响。使用条件性基因系统(Hml-GeneSwitch)驱动Hml阳性细胞中的ras和bax对寿命没有影响。使用组成型驱动系统时,我们确实观察到了寿命上的差异,但我们认为这是遗传背景的差异造成的,可能会导致错误的结论。此外,在感染两种不同的细菌时,也没有观察到任何一种转基因的影响,但在自包囊突变基因背景下扩增 Hml 阳性细胞时,观察到了显著的蛹致死表型。后者证实,Hml 阳性细胞数量的变化确实会导致表型的出现。缺乏成体表型可能是由于我们实验操作的强度,也可能是由于维持血细胞总数的反馈机制的补偿作用。我们的研究表明,有条件地调节体内血细胞数量的方法非常重要,可以更精确地研究先天性免疫系统的功能。这种方法对于揭示整个发育和老化过程中血细胞总数的调节机制尤为有用。
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