Optical forces acting on microparticles trapped by optical tweezers can be divided into three terms: gradient force, scattering force, and absorption force. Switching of optical absorption bands through photochromic reactions generates absorption force onto the trapped microparticles, which introduces a new strategy into optical manipulation techniques. In the present study, we employed naphthopyran derivatives as a photochromic compound. In the experiment, polymer microparticles with diameters of 7 mm incorporating photochromic compounds were optically trapped by a focused CW laser beam. When the trapped microparticle was irradiated with UV light, the microparticle was pushed along the axis of light propagation about a few micrometers by absorption force. The present results indicate that spatiotemporal control of radiation force is possible by utilizing the photochromic reactions.