The dearomatization of indoles represents the most efficient approach for accessing highly valued indolines. The inherent nucleophilic reactivity of indoles has dictated indole dearomatization development in both 1e^– and 2e^– processes. However, the dearomatization of electron-deficient indoles has been challenging. Herein, we introduce a conceptually distinct photoredox-mediated Giese-type transformation strategy, which is generally used for the conjugate addition of radicals to simple α, β-unsaturated systems, for chemoselectively breaking C═C bonds embedded in the aromatic structure. Moreover, highly diastereoselective addition of challenging neutral radicals has been achieved by Oppolzer camphorsultam chiral auxiliary. Structurally diverse amine-functionalized chiral indolines carrying distinct functional and stereochemical diversity are produced from a wide array of amines as radical precursors. Furthermore, the mild, powerful manifold is capable of the late-stage modification of complex natural products and pharmaceuticals. DFT studies are performed to elucidate the observed stereochemical outcomes.