What downstream mechanisms link Axl/Rac1 activation to enhanced microglia efferocytosis capacity?

OPEN

While the study identifies Axl and Rac1 as necessary for Gas6's effects, the specific molecular pathways connecting these signals to efferocytosis machinery remain undefined. Understanding this cascade is essential for developing targeted efferocytosis enhancers. Gap type: unexplained_observation Source paper: Gas6 Promotes Microglia Efferocytosis and Suppresses Inflammation Through Activating Axl/Rac1 Signaling in Subarachnoid Hemorrhage Mice. (2023, Translational stroke research, PMID:36324028)

Priority: 0.80 Domain: neuroinflammation Hypotheses: 0
📊 Landscape Analysis

Landscape Summary: What downstream mechanisms link Axl/Rac1 activation to enhanced microglia efferocytosis capacity? is a 0.8 priority gap in neuroinflammation. It has 0 linked hypotheses with average composite score 0.000. Status: open.

Key Unanswered Questions

Key Researchers

Colonna, Sevlever, et al. (TREM2 biology)

Clinical Trials

What downstream mechanisms link Axl/Rac1 activation to enhanced microglia efferocytosis capacity? — INVOKE-2 (completed)

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0.000
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0
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🌊 Knowledge Graph Connections

activates (3)

PLEKHG5Rac1ARHGEF2Rac1WNT_SIGNALINGRac1

binds (1)

SAARac1

regulates (1)

Rac1cytoskeletal remodeling

show heightened steady-state activation of (1)

17996025Rac1
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