There's no shortage of mm-wave circuitry using cascodes and such (often in distributed amplifiers to get the required BW), but those are specifically monolithic (InP and other) constructions, nothing you'll get as board-level components (and, obviously at that frequency range, with good reason!).
Other than that, I think it doesn't matter too much; the board-level components you do find, have incredibly low Crss, as if internally cascoded. (In the past, you could get dual-gate MOSFETs of exactly this design, but what passes for "RF transistors" these days is whatever variety of HBT or PHEMT with 30GHz+ fT, made with whatever combination of geometry and formulation that makes that possible.) So, little neutralization is needed even in common source/emitter, and the maximum stable gain and bandwidth are quite high. Basically, GG would only make things worse.
And still other than that -- with older more pedestrian types like JFETs, BJTs, and the odd MOSFET that's still around that's not just intended for straight up switching (..are there even any?), you'll have, well I guess an easier time using them at modest frequencies (1-100s MHz) heh, not like having to sweat the fT on the GHz ones -- but also the poorer performance that they give in general, and have to address things like by using GG configuration.
So, given that as a limitation, say -- there are still some newer parts, very slightly improved over the classics; CPH3910 or NSVJ3910 are comparable or better than the (more recently-classic, but mostly now obsolete) BF862.
And yeah, not that incredibly low NF is much of an issue at these frequencies; the main difference is being able to use a smaller antenna -- such that antenna and input stage losses, in terms of Johnson noise, are comparable to received atmospheric noise, thus making the system as small as possible, and requiring just that little bit better NF at the input. This being most relevant to automotive radios, themselves already a dying breed.
Tim