Abstract

Drosophila larval hematopoiesis occurs in a specialized multi-lobed organ called the lymph gland. Extensive characterization of the organ has provided mechanistic insights into events related to developmental hematopoiesis. Spanning from the thoracic to the abdominal segment of the larvae, this organ comprises a pair of primary, secondary, and tertiary lobes. Much of our understanding arises from the studies on the primary lobe, while the secondary and tertiary lobes have remained mostly unexplored. Previous studies have inferred that these lobes are composed of progenitors that differentiate during pupation; however, the mechanistic basis of this extended progenitor state remains unclear. This study shows that posterior lobe progenitors are maintained by a local signaling center defined by Ubx and Collier in the tertiary lobe. This Ubx zone in the tertiary lobe shares several markers with the niche of the primary lobe. Ubx domain regulates the homeostasis of the posterior lobe progenitors in normal development and an immune-challenged scenario. Our study establishes the lymph gland as a model to tease out how the progenitors interface with the dual niches within an organ during development and disorders.

Highlights

  • Blood cells in Drosophila bear several similarities to vertebrates in development and function [1,2]

  • The lymph gland consists of cellularly diverse primary lobes, followed by pairs of secondary and tertiary lobes, collectively called posterior lobes

  • We propose that the posterior lobes comprise blood cells in a pre-progenitor-like state and an anterior domain in the tertiary lobe that expresses Hox gene Ultrabithorax (Ubx) and high early B-cell factor (EBF) factor Collier/Knot

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Summary

Introduction

Blood cells in Drosophila bear several similarities to vertebrates in development and function [1,2]. The hematopoietic events, giving rise to mature blood cells, occur in two spatially and temporally distinct Drosophila developmental phases. Drosophila larval lymph gland, an outcome of AGM hematopoiesis [3], is a primary hematopoietic site in larval stages. It comprises proliferating blood progenitors developing inside a bi-laterally symmetrical multi-lobed organ consisting of primary, secondary, tertiary, and rarely quaternary lobes [4,5,6]. A recent report emphasizes that the posterior lobes consists of blood progenitors [22]

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