The default operation of MQ is that when a message is sent (MQPUT or in JMS terms producer.send), the application does not get a response back on the MQPUT call until the message has reached a queue on a queue manager. i.e. MQPUT is a synchronous call, and if you get a completion code of OK, that means that the queue manager to which the client application is connected has received the message successfully. It may not yet have reached its ultimate destination, but it has reached the protection of an MQ Server, and therefore you can rely on MQ to look after the message and forward it on to where it needs to get to.
Whether client connected, or locally bound to the queue manager, applications sending messages are responsible for their data until an MQPUT call returns successfully. Similarly, receiving applications are responsible for their data once they get it from a successful MQGET (or JMS consumer.receive) call.
There are multiple levels of message protection are available.
If you are using non-persistent messages and asynchronous PUTs, then you are effectively saying it doesn't matter too much whether the messages reach their destination (although they generally will).
If you want MQ to really look after your messages, use synchronous PUTs as described above, persistent messages, and perform your PUTs and GETs within transactions (aka syncpoint) so you have full application control over the commit points.
If you have very unreliable networks such that you expect to regularly fail to get the messages to a server, and expect to need regular retries such that you need client-side message protection, one option you could investigate is MQ Telemetry (e.g. in WebSphere MQ V7.1) which is designed for low bandwidth and/or unreliable network communications, as a route into the wider MQ.