4MB won't be any problem for any MPI implementation out there; I'm not sure what you mean by "too large" though.
A rule of thumb is that, if you can easily send the data all in one message, that is usually faster -- the reason being that there is some finite amount of time required to send and receive any one message (the latency) that comes from the function calls, calls to the transport layer, etc. On top of that, there is some, usually close-to-fixed amount of time it takes to send any additional byte of data (which is one over the bandwidth.) That's only a very crude approximation to the real complexity of sending messages (especially large messages) between processors, but it's a very useful approximation. Within that model, the fewer messages you send, the better, because you incur the latency overhead fewer times.
The above is almost always true if you are contemplating sending many little messages; however, if you're talking about sending (say) 4 1MB messages vs 1 4MB messages, even under that model the difference may be small, and may be overwhelmed by other effects specific to your transport. If you want a more accurate assessment of how long things take for your platform, there's really no substitute for empirical measurement of how long things actually take. The best way would just be to try it in your code a few ways and see what is best. That's really the only definitive answer. A second method would be to take a look at MPI "microbenchmarks":
both of the above include benchmarks of how long it takes to send and receive messages of various sizes; you compile the above with your MPI and you can simply read off how long it takes to send/receive (say) a 4MB message vs 4x 1MB messages and that may give you some clues as to how to proceed.