Triggering receptor expressed on myeloid cells 2 (TREM2) dysfunction contributes to Alzheimer's disease pathogenesis, yet current therapeutics cannot prevent ADAM-mediated receptor shedding that diminishes signaling efficacy. Using Affinity Selection-Mass Spectrometry (AS-MS) screening, we identified As48, a novel small molecule that binds TREM2 with high affinity. Biophysical validation confirmed 7-fold selectivity over TREM1. Cellular assays demonstrated that As48 functions as a TREM2 agonist, activating SYK phosphorylation and enhancing microglial phagocytosis. Molecular docking and molecular dynamics simulations revealed that As48 binds near the cleavage region, establishing hydrogen bonds with Gly68 and reducing conformational flexibility in regions 58–102. Based on this structural insight, we investigated the effect of As48 on TREM2 ectodomain shedding and discovered inhibition of receptor shedding without affecting ADAM10/17 protease activities, representing the first small molecule with anti-shedding properties through conformational restriction of protease accessibility. Importantly, As48 displayed favorable pharmacokinetics with potential for brain permeability, supporting its translational relevance. Through its dual and simultaneous promotion of receptor activation and prevention of shedding, As48 represents a paradigm shift in TREM2 modulation and neuroinflammatory drug discovery.