In general, see the above answers by K-ballo and Chad La Guardia, that's the intent behind such typedefs. That, and in some cases to hide the actual datatype in case the API changes in a future revision (not likely going to happen with OpenGL, but I've seen it happen). In case the datatype changes, this requires a recompilation, but no code changes.
Still, one has to say that library developers often overdo this particular aspect of portabilty to the point of sillyness.
In this particular case, the OpenGL specification is very clear about what a
GLuint is (chapter 2.4). It is an unsigned integer of at least 32 bits length. They don't leave much room for interpretation or change.
Insofar, there is no chance it could ever be anything other than an
uint32_t (as that is the very definition of
uint32_t), and there is no good reason why you couldn't use
uint32_t in its stead if you prefer to do so (other than using GLuint makes explicit that a variable is meant to be used with OpenGL, but meh).
It might in principle still be something different than an
unsigned int of course, since not much is said about the precise size of an
int (other than
sizeof(long) >= sizeof(int) >= sizeof(short)).