There are numerous ways an attacker can take advantage of a known open port ranging from exploiting bugs in TCP implementation, causing denial-of-service by tricking your server into performing expensive computation (remember recent 2.2250738585072012e-308 bug?), causing buffer overflows to crash your program or to even make it execute arbitrary code.
There have been a few vulnerabilities in TCP implementation on some operating systems in which an attacker relied on knowing an open port on a target host, e.g. SYN flood attack. These have been largely mitigated in all major OSes out there, but whoever is responsible for the security of your host should be on a constant lookout for recent security issues in the platform.
Vulnerabilities in the OS and TCP implementation aside, there are also potential issues connected with the server itself. If your server can perform security-relevant operations in response to requests it receives, an attacker can take advantage of it. These include reading and writing files, allocating large chunks of memory, sending queries to databases etc.
From developer perspective
Ensuring that your server can run with low privileges and low resources, that it validates all input received from the user and escapes all output it sends to other systems and that it does not perform any unnecessary security-relevant actions are the first steps to making it secure. If you do need to perform security-related operations, you may want to encapsulate them in a separate process and use IPC. Extensive testing of your program is very hard, but critical to its security as well.
From admin perspective
Critical points are making sure recent security updates in the OS have been applied, that your server actually does run with lowest privileges possible and that it is unable to exhaust critical system resources (e.g. CPU, RAM, open file descriptors, open TCP connections etc).