Some more possible solutions:
Immutability by convention
The object is mutable, you just behave well and never change it after it's been set-up. This is completely inappropriate for most uses (any where the object is public for a start), but can work well for internal "worker" objects with a limited number of places where they are used (and hence a limited number of places where you can mess up and change them).
Assuming your real class has more than 5 fields (not that hard to read, especially if you've an IDE with tooltips), some may be composable. E.g if you had different parts of a name, and address and a latitude and longitude in the same class, you could break that into name, address and coördinate classes.
A bonus that happens in some such cases, is that if you've many (and I mean many for this to be worthwhile, anything less than a few thousand and it's a waste of time) such objects and there are some such fields identical between them, you can sometimes build them in such a way that those shared values have the same object in each case, rather than different identical objects - all the things that can go wrong with aliasing can't happen, since they are immutable after all.
Examples would be
UriBuilder. Here you've got precisely the issue you have - you want the benefits of immutability, but there are at least some times when you want to be able to construct he object in more than one step.
So you create a different mutable class that has equivalent properties, but with setters as well as getters, along with other mutating methods (whether something like
Append() makes sense depends on the class of course), and a method that constructs an instance of your immutable class.
I've made use of this with classes whose constructor has as many as 30 parameters, because there really were 30 different pieces of information that was part of the same concern. In this case, about the only place I'd call the constructor was in the corresponding builder class.