Visualizing matrices is a bit "undefined" request, since matrices are just a rectangular grid of numbers after all. Only after saying: "Those are base vectors of a transformation" you may say, "I can visualiaze that".

In your particular case you want to inverse project the volume, or its border, [-1,1]^3. However after you unprojected that volume, how do you project it again? How do you view it? Do you project it with the actual transformation setup? Then you'll end up with the original [-1,1]^3 volume.

Understanding the transformation matrix OTOH is rather easy. The upper left 3 columns define the base of the coordinate system after the transformation in terms of the coordinate system you're transferring on. So the 1st column designates the new X axis (and it's scaling), the 2nd column makes the new Y axis and the 3rd column the Z axis, as how the transformed coordinate system is seen from the current base. The 4th column designates the relative translation.

The 4th row of the matrix/component of the vectors supports the perspective scaling. In the vertex position vectors leave this value 1, and in the modelview transformation matrix (0,0,0,1). In the projection matrix this last row is it, that makes the perspective distortion happen.