I am not really sure of the specific question you have, seems like more of a general design question, but as I love MSMQ I'll chime in here.
MSMQ does have some drawbacks, specifically about load balancing transactional messages, but on whole its pretty awesome.
However, none of your requirements mentioned any specific reason to use MSMQ: durability, recoverable messaging, disconnected clients, etc.. so I am assuming you have some of these requirements, but that they are not explicitly called out.
Requirement #1 should be easy to meet/beat, especially if these are small messages and there is no apparent logic being performed on them (e.g. just vanilla inserts/updates) and MSMQ handles competing consumers very well.
Requirement #2 unless your using transactional messaging with MSMQ, its not impossible to load balance MSMQ to enable scaling, but it has some caveats. How are you load balancing MSMQ? See How to Load-Balancing MSMQ: A Brief Discussion for some details if you don't already have them.
Barring potential snafu's with load-balancing MSMQ, none of which are insurmountable, there is nothing wrong with this approach.
MSMQ scales very well vertically (same machine) and moderately horizontally (many machines). However, it is difficult to make MSMQ truly highly available, which may or may not be a concern. See the links already in this answer for thoughts on making it highly available.
When scaling MSMQ vertically, there are many instances of the queue reader(s) running on a single machine, reading from a single queue. MSMQ handles this very well. All of our queue data is in a temporal store on the local machine.
What happens if we lose the machine hosting the queue?
Clients can send and messages will stack up in the outgoing queue of the client, but we can't receive them until the server comes back up.
What happens to the messages in the queue?
Without the introduction of some sort of highly available backed disk subsystem they are likely gone. Even so, getting another queue 'hooked up' to that data file can be a challenge. In theory, you can get them back. In practice, its likely easier to resend the message from the edge system.
Depending on transaction volumes, the queue may be empty the majority of the time so the risk of data loss needs to be weighed with the effort/cost of making it highly available.
When scaling MSMQ horizontally, there is an instance of a queue on each processing machine. Each machine may have [n] readers for that queue running on the machine receiving messages from the queue. All of our queue data is in temporal stores on several machines.
You can use any of the methods described in the documentation for load-balancing MSMQ, however, my experience has almost always been with application load balancing, described as software load-balancing: the client has a list of available msmq end points to deliver to. Each server hosting the queue is subject to the same availability problems as the single queue.
Also might want to check out Nine Tips to Enterprise-proof MSMQ for some additional MSMQ related information.