Ontologies are a new paradigm for information management, while peer-to-peer (P2P) systems provide a flexible network infrastructure for distributed information sharing. As combining ontologies and P2P systems would result in synergy, many researchers have focused on a combination of them. Some research is based on Distributed Hash Table (DHT) networks. However, the nature of DHTs may necessitate some compromises, because of the difficulty in supporting expressive queries, the overhead of maintaining a hash table at distributed nodes, and the restrictions on peer autonomy. In contrast, other research leverages centralized mechanisms to build a network that supports flexible and expressive queries. However, the use of centralized mechanisms makes systems vulnerable to some inherent problems, such as attacks and failures. All these drawbacks highlight the need for a robust design that also meets the requirement of flexibility. Taking a different approach to the above, we propose a system called “OntoZilla”, which utilizes the synergy between ontologies and P2P systems. In our system, resources at peers are managed using ontologies, thereby enabling automatic processing of information in the network. On the other hand, we exploit ontologies to organize peers. Using “semantic links”, the relationships among peers are reflected, resulting in an ontology-based and semi-structured network topology. To keep peer relationships up-to-date, peers constantly “gossip” with each other so that their relationships evolve. Furthermore, we tackle the challenges of fault tolerance, load balance, and stabilization so that the system is self-supervising and adaptive. This intelligent system can be applied to many areas. For example, it can be used as a platform for concept searches, or for dynamic service discovery and integration. We believe our system would improve the process of information searching and facilitate greater integration as well as interoperability.