Rapid clearance of cellular debris by microglia limits secondary neuronal cell death after brain injury <i>in vivo</i>

Herzog, Chiara; Garcia, Laura Pons; Keatinge, Marcus; Greenald, David; Moritz, Christian P.; Peri, Francesca; Herrgen, Leah

doi:10.1242/dev.174698

Cited by 86 publications

(92 citation statements)

References 84 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For example, dysregulated microglial phagocytosis may contribute to pathology in a variety of neurodegenerative diseases . In contrast, microglial phagocytosis limits secondary cell death in contexts of acute CNS injury and is important in response to widespread retinal lesion in zebrafish . Therefore, a better understanding of molecular mechanisms and pathways functioning in microglial phagocytosis in healthy vs damaged or diseased tissue are likely to yield important targets to modulate and balance microglial behavior in vivo.…”

Section: Discussionmentioning

confidence: 99%

Microglia in the developing retina couple phagocytosis with the progression of apoptosis via P2RY12 signaling

Blume

Lambert

Lovel

et al. 2020

Developmental Dynamics

View full text Add to dashboard Cite

Background: Microglia colonize the developing vertebrate central nervous system coincident with the detection of developmental apoptosis. Our understanding of apoptosis in intact tissue in relation to microglial clearance of dying cells is largely based on fixed samples, which is limiting given that microglia are highly motile and mobile phagocytes. Here, we used a system of microglial depletion and in vivo real-time imaging in zebrafish to directly address microglial phagocytosis of apoptotic cells during normal retinal development, the relative timing of phagocytosis in relation to apoptotic progression, and the contribution of P2RY12 signaling to this process. Results: The depletion of microglia resulted in accumulation of numerous apoptotic cells in the retina. Real-time imaging revealed precise timing of microglial engulfment with the progression of apoptosis, and dynamic movement and displacement of engulfed apoptotic cells. Inhibition of P2RY12 signaling delayed microglial clearance of apoptotic cells. Conclusions: Microglial engulfment of dying cells is coincident with apoptotic progression and requires P2RY12 signaling, indicating that microglial P2RY12 signaling is shared between development and injury response. Our work provides important in vivo insight into the dynamics of apoptotic cell clearance in the developing vertebrate retina and provides a basis to understand microglial phagocytic behavior in health and disease. K E Y W O R D S developmental apoptosis, microglia, p2ry12, phagocytosis, retina, zebrafish

show abstract

Section: Discussionmentioning

confidence: 99%

Microglia in the developing retina couple phagocytosis with the progression of apoptosis via P2RY12 signaling

Blume

Lambert

Lovel

et al. 2020

Developmental Dynamics

View full text Add to dashboard Cite

show abstract

“…In summary, phagocytosis is a powerful double-edged sword that must be kept under a tight rein, as is exemplified by two recent papers in zebrafish and Drosophila. Phagocytosis of apoptotic cells is beneficial during brain trauma, as it prevents secondary damage spread in zebrafish larvae (128). In control larvae, the initial necrotic and apoptotic cells resulting from traumatic brain injury in the optic tectum are cleared by microglia within the first 24 h. When phagocytosis is pharmacologically and genetically disturbed by targeting PS and the zebrafish ortholog of PS receptor BAI1, a larger wave of secondary cell death spread over the brain (128).…”

Section: Lesson 10 Does Phagocytosis Execute Cell Death?mentioning

confidence: 99%

“…Phagocytosis of apoptotic cells is beneficial during brain trauma, as it prevents secondary damage spread in zebrafish larvae (128). In control larvae, the initial necrotic and apoptotic cells resulting from traumatic brain injury in the optic tectum are cleared by microglia within the first 24 h. When phagocytosis is pharmacologically and genetically disturbed by targeting PS and the zebrafish ortholog of PS receptor BAI1, a larger wave of secondary cell death spread over the brain (128). In contrast, overexpression of phagocytosis receptors Six-Microns-Under (SIMU) and Draper (Drpr), homologs of Stabilin2 and MEGF10 (Multiple EGF Like Domains 10, a complement receptor), respectively, in adult Drosophila leads to phagocytosis of live neurons, motor dysfunction and a shortened lifespan (129).…”

Section: Lesson 10 Does Phagocytosis Execute Cell Death?mentioning

confidence: 99%

Microglial Corpse Clearance: Lessons From Macrophages

et al. 2020

View full text Add to dashboard Cite

From development to aging and disease, the brain parenchyma is under the constant threat of debris accumulation, in the form of dead cells and protein aggregates. To prevent garbage buildup, the brain is equipped with efficient phagocytes: the microglia. Microglia are similar, but not identical to other tissue macrophages, and in this review, we will first summarize the differences in the origin, lineage and population maintenance of microglia and macrophages. Then, we will discuss several principles that govern macrophage phagocytosis of apoptotic cells (efferocytosis), including the existence of redundant recognition mechanisms ("find-me" and "eat-me") that lead to a tight coupling between apoptosis and phagocytosis. We will then describe that resulting from engulfment and degradation of apoptotic cargo, phagocytes undergo an epigenetic, transcriptional and metabolic rewiring that leads to trained immunity, and discuss its relevance for microglia and brain function. In summary, we will show that neuroimmunologists can learn many lessons from the well-developed field of macrophage phagocytosis biology.

show abstract

“…Also, other types of fluorescence-based kinase activity reporters such as separation of phases-based activity reporter of kinases (SPARK), that had been shown to work in zebrafish could be applied to visualise EC Erk activity in zebrafish (Zhang et al, 2018). (Baek et al, 2019), Tg(fli1a:EGFP) y1 (Lawson and Weinstein, 2002), Tg(ubb:Mmu.Elk1-KTR-mClover) vi1 (Mayr et al, 2018), Tg(actb2:GCaMP6f) zf3076 (Herzog et al, 2019), Tg(kdrl:mCherry-CAAX) y171 (Fujita et al, 2011), Tg(mpeg1:mCherry) gl23 (Ellett et al, 2011), and Tg(kdrl:EGFP) s843 (Beis et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

“…To determine whether Ca 2+ signalling is rapidly activated in ablated ISV ECs in our model, we measured the dynamic expression of a ubiquitously expressed GCamp, a GFP-based Ca 2+ probe, using the Tg(actb2:GCaMP6f);Tg(kdrl:mCherry-CAAX) transgenic line (Herzog et al, 2019). ISVs in non-ablated 4 dpf larvae did not show We next tested whether Ca 2+ signalling is required for maintaining Erk activity in ablated ISV ECs 3 hpa.…”

Section: Ca 2+ Signalling Is Required For Initial Rapid Erk Activatiomentioning

confidence: 99%

Live-imaging of endothelial Erk activity reveals dynamic and sequential signalling events during regenerative angiogenesis

Okuda

Keyser

Gurevich

et al. 2020

Preprint

View full text Add to dashboard Cite

The formation of new blood vessel networks occurs via angiogenesis during development, tissue repair and disease. Angiogenesis is regulated by intracellular endothelial signalling pathways, induced downstream of Vascular endothelial growth factors (VEGFs) and their receptors (VEGFRs). A major challenge in understanding angiogenesis is interpreting how signalling events occur dynamically within endothelial cell populations during sprouting, proliferation and migration. Erk is a central downstream effector of Vegf-signalling and reports the signalling that drives angiogenesis. We generated a vascular Erk biosensor transgenic line in zebrafish using a kinase translocation reporter that allows live-imaging of Erk-signalling dynamics. We demonstrate the utility of this line to live-image Erk activity during physiologically relevant angiogenic events. Further, we reveal dynamic and sequential endothelial cell Erk-signalling events following blood vessel wounding. Initial signalling is dependent upon Ca2+ in the earliest responding endothelial cells, but is independent of Vegfr-signalling and local inflammation. The sustained regenerative response however, involves a Vegfr-dependent mechanism that initiates concomitant with the wound inflammatory response. This work thus reveals a highly dynamic sequence in regenerative angiogenesis that was not previously appreciated. Altogether, this study demonstrates the utility of a unique biosensor strain for analysing dynamic endothelial Erk-signalling events and validates a new resource for the study of vascular signalling in real-time.

show abstract

Rapid clearance of cellular debris by microglia limits secondary neuronal cell death after brain injury in vivo

Cited by 86 publications

References 84 publications

Microglia in the developing retina couple phagocytosis with the progression of apoptosis via P2RY12 signaling

Microglia in the developing retina couple phagocytosis with the progression of apoptosis via P2RY12 signaling

Microglial Corpse Clearance: Lessons From Macrophages

Live-imaging of endothelial Erk activity reveals dynamic and sequential signalling events during regenerative angiogenesis

Contact Info

Product

Resources

About