The problem with moving to a totally threaded environment (that is, all processes are converted to threads sharing the same virtual address space) at the operating system level would be the lack of memory protection. I can't think of a rogue thread being able to halt the others, but it could certainly go poking around in memory places it's not allowed to go to. With protection violated, there would be alot of security issues. However, if all threads behaved well, it would work fine. It would be akin, however, to pre protected memory operating systems where one thread would crash the entire system.
That said, the advantages of such a system are negligible. In current systems, two processes can already request a segment of shared memory for cooperation (see here). The only other advantage I could think of would be that there would be potentially less overhead with context switching. In a very adventuresome environment one could even turn of virtual memory altogether and run every thread in kernel space, as in the original xbox operating system (Link appears broken, alternative here). This would have the effect of faster execution all around, but even slight buffer overruns would potentially corrupt everything.
To conclude, there has been alot of research on operating system security with regard to processes and threads. The nature of both the encapsulation and independence of processes makes them well suited for concurrency. If they are not fast enough for you, write a single process with multiple threads for a specific user application, but it's best not to go back to the dark ages of pre-protective computing and clobber everything together in one memory space.