It's not supposed to. MyType isn't a "type" as far as C# is concerned, it's a variable of type "Type". The "type" of "MyType" is "Type", but you can't cast 1 to "Type".
In this situation, you've entered "reflection-land" but you're really trying to find a way out. I'm sorry, but there's no way to get back to strongly-typed-land from this sort of situation.
One workaround you could try to do however, is to move that last line into another generic method, and then invoke the method generically:
public static void LeaveReflectionLand<T>(object value)
T newItem = (T)value;
Then from outside, you'd have to do something like this:
this.GetType().GetMethod("LeaveReflectionLand", BindingFlags.Public | BindingFlags.Static).MakeGenericMethod(MyType).Invoke(null, test);
But of course, that's a huge and scary workaround. Check Jon Skeet's answer... I think it put things clearly.
The long and the short of it is, as MyType is an instance of the class Type, it could represent any type at all. It's a variable just like int, as far as the compiler is concerned. It's not a proper "type" in and of itself, it's a variable that "describes" a type. Because it's a variable that describes a type, there's no way, at compile time, for the compiler to know the actual type described by MyType, so this sort of thing isn't allowed.
It's not unlike doing something like this:
int test = 1;
int MyType = 2;
int anotherTest = (MyType)test;
Obviously, you can't do this. MyType is a variable of type Int32. The same is true when the type of MyType is Type, only in that situation MyType is a variable of type Type.
The key to understanding this is the difference between the "Type class" and the "compiler type".
I hope this helps. It's not the easiest thing to explain in words.