"UV mapping coordinates at that pixel" - Indeed, but in the vertex shader you don't have any pixels. You're missing how point sprites actually work. A single vertex shader invocation putting out a
gl_PointSize larger than 1 pixel results in multiple fragment shader invocations for this point (because the point, well, covers multiple pixels). And those fragments get their
gl_PointCoord based on their position inside this larger point sprite. But each point sprite covering multiple fragments always results from a single vertex. So conceptually this single per-vertex
gl_PointCoord would just be
(0.5, 0.5) for each vertex, but in the end even this doesn't make sense because there really is no notion of any pixels let alone per-pixel UV-coordinates inside a vertex shader.
"but can you send it the other way" - And I'm sure this was meant rather informally, since of course you cannot send any data from a fragment shader to the vertex shader, as the graphics pipeline only works in a single direction.
EDIT: Regarding your comment, if not using point sprites, the
gl_PointCoord variable doesn't have any meaning at all. You cannot use it as a general UV-coordinate (how should the fragment shader come up with a reasonable value). For that you have to put out a valid texture coordinate youself from your vertex shader (as a
varying) that then gets interpolated over the fragments to be accessed in the fragment shader, maybe ultimately passed into the vertex shader as an additional
attribute, as is usual.