Pvr regulates cyst stem cell division in the Drosophila testis niche, and has functions distinct from Egfr

Regulation of the rate of stem cell division is one of the key determinants of the abundance of differentiating progeny in stem cell-supported tissues, and mis-regulation can lead to tumorigenesis. The well-studied Drosophila testis niche is an excellent model system to study the regulation of stem cell division in vivo. This niche supports two stem cell populations—the germline stem cells (GSCs) and cyst stem cells (CySCs), which cluster around a group of cells called the hub. The differentiating cells of these two stem cell populations cooperate together to produce sperm. Signal transduction initiated by the epidermal growth factor receptor (Egfr) is a key regulatory pathway in the cyst lineage, and much of the study of this stem cell population has centered around understanding the complexities of the requirements for Egfr signaling. We examined another receptor tyrosine kinase, Pvr, the sole Drosophila PDGF/VEGF homolog, and found that it accumulates in the cyst lineage cells of the testis, while its ligand Pvf1 accumulates in the hub. Pvr inhibition caused a reduction in both CySC numbers and the proportion of CySCs in S phase, similar to Egfr inhibition. However, testes with Pvr inhibition exhibited a low-penetrance non-autonomous germ cell differentiation defect distinct from that observed with Egfr inhibition. Cyst cells with constitutively activated Pvr failed to support germ cell differentiation, as observed with constitutively activated Egfr. However, constitutively activated Pvr promoted tumorous accumulation of cyst cells outside of the niche, a phenotype not observed with constitutively activated Egfr. Thus, Egfr and Pvr have some receptor-specific functions and some shared functions in the cyst lineage cells of the testis.