My recommendation would be to create a master/controller that is an endpoint (proxy if you like) for the worlds. All connections come to it and it then routes them directly to the back end world specific server. This connection can be very thin (I'm thinking just an IP tunnel once the connection has been established), so it won't add much latency to it.
Now there's a couple gotchas with this approach.
The proxy can only handle a limited number of active connections. So you have to have a way to monitor this and route traffic to a secondary proxy/relay. Windows Azure's built in load balancer should do nicely for this, you just need to monitor active connections and use that info to control your scaling behaviors.
Additionally, idle connections will be killed by the Windows Azure load balancer, so your proxy will need to be able to detect when a connection has been killed so it can free up those resources to service another connection.
The upside to this approach is that if your world servers go off-line or are moved around (and they will be at some point), the proxy can detect where the workload has moved and shift connections accordingly, making it seemless to your external users.
Now there's one other approach to all this that would also work. The Windows Azure Service Bus relay. Each "world" server would have its own endpoint on the service bus and when a client asks to connect, it comes to the controlling "proxy" and gets the endpoint for its requested server. You can take this one a step further by enabling hybrid connections which will encourage the client and the server to negotiate a direct connection and thus reduce any relay latency. And the service bus endpoint, since its a published location, resolves any issues with machine specific addressability.