When I rotate an object in OpenGL, the axis also rotates with the object.

The transformation does not rotate the object, it rotates the coordinate system. Chaining rotations is noncommutative. So what you must do is simply: Swap the rotation operations, that the first rotation applied, i.e. the last you multiply on the stack designates your object rotation, followed (i.e. previously multiplied) with the other rotation.

BTW: In a comment you wrote:

I store the previous transformation using glGetDoublev and then before applying the new rotation, I load that matrix by glLoad and then multiply it with the new rotation matrix. In my application, I have to serialize the object on disk, thats why I did it this way. Along with the object, I store the transformation matrix as well

This suggests you've mistaken OpenGL for a scene graph or a matrix math library. It is neither. Don't use OpenGL as an "object store" (it doesn't work like this), and don't rely on OpenGL's matrix functions (they got removed from OpenGL-3 anyway).