We present high-temperature ferromagnetism and large magnetic anisotropy in heavily Fe-doped n-type ferromagnetic semiconductor (In_1-x,Fe_x)Sb (x = 20 – 35%) thin films grown by low-temperature molecular beam epitaxy. The (In_1-x,Fe_x)Sb thin films with x = 20 – 35% maintain the zinc-blende crystal and band structure with single-phase ferromagnetism. The Curie temperature (T_C) of (In_1-x,Fe_x)Sb reaches 390 K at x = 35%, which is significantly higher than room temperature and the highest value so far reported in III-V based ferromagnetic semiconductors. Moreover, large coercive force (H_C = 160 Oe) and large remanent magnetization (M_r/M_S = 71%) have been observed for a (In_1-x,Fe_x)Sb thin film with x = 35%. Our results indicate that the n-type ferromagnetic semiconductor (In_1-x,Fe_x)Sb is very promising for spintronics devices operating at room temperature.