Let me share my experiences with you in this area, you may find it helpful.
My team first used MSMQ transactional queues that would feed our asynchronous services (be they IIS hosted or WAS). The biggest problem we encountered was MS DTC issues under heavy load, like 100+ messages/second load; all it took was one slow database operation somewhere to start causing timeout exceptions and MS DTC would bring the house down so to speak (transactions would actually become lost if things got bad enough), and although we're not 100% certain of the root cause to this day, we do suspect MS DTC in a clustered environment has some serious issues.
Because of this, we started looking into different solutions. Service Bus for Windows Server (the on-premise version of Azure Service Bus) looked promising, but it was non-transactional so didn't suit our requirements.
We finally decided on the roll-your-own approach, an approach suggested to us by the guys who built the Azure Service Bus, because of our transactional requirements. Essentially, we followed the Azure Worker Role model for a worker role that would be fed via some queue; a polling-blocking model.
Honestly, this has been far better for us than anything else we've used. The pseudocode for such a service is:
hasMsg = true
msg = GetNextMessage
if(msg == null)
hasMsg = false
hasMsg = true
We've found that CPU usage is significantly lower this way (lower than traditional WCF services).
The tricky part of course is handling transactions. If you'd like to have multiple instances of your service read from the queue, you'll need to employ read-past/updlock in your sql, and also have your .net service enlist in the transactions in a way that will roll-back should the service fail. in this case, you'll want to go with retry/poison queues as tables in addition to your regular queues.