In Drosophila, the replacement of spent enterocytes (ECs) relies on division of intestinal stem cells (ISCs) and differentiation of their progeny, the enteroblasts (EBs). Recent studies have revealed a role for JAK/STAT signaling in the modulation of the rate of ISC division in response to environmental challenge. Here, we demonstrate the critical role of the UPD3 cytokine in the JAK/STAT-dependent response to enteric infection. We show that upd3 expression is activated in ECs and in EBs that massively differentiate in response to challenge. We show that the UPD3 cytokine, which is secreted basally and accumulates at the basement membrane, is required for stimulation of JAK/STAT signaling in EBs and visceral muscles (VMs). We further show that stimulation of ISC division requires active JAK/STAT signaling in EBs and VMs, but apparently not in ISCs. Our results suggest that EBs and VMs modulate the rate of the EGFR-dependent ISC division through upd3-dependent production of the EGF ligands Spitz and Vein, respectively. This study therefore supports the notion that the production of the UPD3 cytokine in stem cell progeny (ECs and EBs) stimulates intestinal stem cell division through modulation of JAK/STAT signaling in the stem cell microenvironment (EBs and VMs).

译文

:在果蝇中,用过的肠上皮细胞(ECs)的更换依赖于肠干细胞(ISC)的分裂及其后代即成肠细胞(EBs)的分化。最近的研究表明,响应环境挑战,JAK / STAT信号传导在调节ISC分裂速率中发挥了作用。在这里,我们证明了UPD3细胞因子在对肠感染的JAK / STAT依赖性反应中的关键作用。我们显示upd3表达在EC和EB中被激活,而EB在对挑战的反应中大量分化。我们显示,UPD3细胞因子是基础分泌并累积在基底膜上,是刺激EBs和内脏肌肉(VMs)的JAK / STAT信号传导所必需的。我们进一步表明,刺激ISC分裂需要在EB和VM中激活JAK / STAT信号,但显然在ISC中不需要。我们的研究结果表明,EBs和VMs通过upd3依赖的EGF配体Spitz和Vein的生产来调节EGFR依赖的ISC分裂的速率。因此,这项研究支持以下观点:干细胞后代(ECs和EBs)中UPD3细胞因子的产生通过调节干细胞微环境(EBs和VMs)中的JAK / STAT信号传导来刺激肠道干细胞分裂。

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