Heterogeneous network (HetNet) is a promising technique to improve the system spectral efficiency by exploiting the benefit of spatial reuse. However, the benefit of HetNet is limited by the asymmetry of transmit power between macro BSs and small cells. Moreover, it leads to a natural tradeoff between SINR and spectral efficiency. In recent studies, there are three basic mechanisms to improve the network performance, user association, resource allocation, and transmit power control. On the other hand, there are rare studies take all of these three elements into accounts in HetNet. To tackle the problem, we propose a novel mechanism which is combined with 1) a partial frequency reuse (PFR) scheme in HetNet, which achieve a balance between spectral efficiency and interference mitigation, 2) a iterative transmit power control algorism (TXPC) for macro BSs, which realize the traffic offloading from macro cell to pico cell without sacrificing the SINR performance, 3) a load-aware frequency allocation algorithm (LAA), which allocate proper frequency considering the load and channel condition. The simulation results show that our algorithm is indeed an efficient mechanism which has better network performance in average throughput and fairness.