Rami Makki scite author profile

Drosophila haemocytes (blood cells) originate from a specialized haematopoietic organ-the lymph gland. Larval haematopoietic progenitors (prohaemocytes) give rise to three types of circulating haemocytes: plasmatocytes, crystal cells and lamellocytes. Lamellocytes, which are devoted to encapsulation of large foreign bodies, only differentiate in response to specific immune threats, such as parasitization by wasps. Here we show that a small cluster of signalling cells, termed the PSC (posterior signalling centre), controls the balance between multipotent prohaemocytes and differentiating haemocytes, and is necessary for the massive differentiation of lamellocytes that follows parasitization. Communication between the PSC and haematopoietic progenitors strictly depends on the PSC-restricted expression of Collier, the Drosophila orthologue of mammalian early B-cell factor. PSC cells act, in a non-cell-autonomous manner, to maintain JAK/STAT signalling activity in prohaemocytes, preventing their premature differentiation. Serrate-mediated Notch signalling from the PSC is required to maintain normal levels of col transcription. The key role of the PSC in controlling blood cell homeostasis is reminiscent of interactions between haematopoietic progenitors and their micro-environment in vertebrates, thus further highlighting the interest of Drosophila as a model system for studying the evolution of haematopoiesis and cellular innate immunity.

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The Development and Functions of Oenocytes

Makki

Cinnamon

Gould

2014

Annu. Rev. Entomol.

146

132

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Oenocytes have intrigued insect physiologists since the nineteenth century. Many years of careful but mostly descriptive research on these cells highlights their diverse sizes, numbers, and anatomical distributions across Insecta. Contemporary molecular genetic studies in Drosophila melanogaster and Tribolium castaneum support the hypothesis that oenocytes are of ectodermal origin. They also suggest that, in both short and long germ-band species, oenocytes are induced from a Spalt major/Engrailed ectodermal zone by MAPK signaling. Recent glimpses into some of the physiological functions of oenocytes indicate that they involve fatty acid and hydrocarbon metabolism. Genetic studies in D. melanogaster have shown that larval oenocytes synthesize very-long-chain fatty acids required for tracheal waterproofing and that adult oenocytes produce cuticular hydrocarbons required for desiccation resistance and pheromonal communication. Exciting areas of future research include the evolution of oenocytes and their cross talk with other tissues involved in lipid metabolism such as the fat body.

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A Short Receptor Downregulates JAK/STAT Signalling to Control the Drosophila Cellular Immune Response

et al. 2010

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Rami Makki

Control of blood cell homeostasis in Drosophila larvae by the posterior signalling centre

The Development and Functions of Oenocytes

A Short Receptor Downregulates JAK/STAT Signalling to Control the Drosophila Cellular Immune Response

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