One possibility that comes to mind is that the spin-two graviton might — No-go theorem

"The Kochen–Specker theorem has been discussed intensely ever since its original proof in 1967. It is one of the central no-go theorems of quantum theory, showing the non-existence of a certain kind of hidden states models."

"The Einstein–Podolsky–Rosen (EPR) argument has been enormously influential in the debate on the foundations of quantum mechanics. While EPR argue for the incompleteness of quantum mechanics, Bells no-go theorem, which is in a sense an extension of the EPR argument, appears to support the opposite conclusion."

"The question of the possibility for a completion of quantum mechanics received its most famous (partial) answer in 1964 by, again, Bell ... He proved what today is known simply as Bells theorem, to wit, that is such a more complete description exists, it cannot be local, i.e. dependent only on the events in a systems past lightcone, and agree with quantum mechanics in all instances. To this day, this result forms the paradigm example of a no-go theorem."

"... If you start off with switches and gears, or whatever, you can never construct a universe in which you see quantum mechanical phenomena, according to Bell. We call such a thing a no-go theorem. You may already suspect that I still believe in the hidden variables hypothesis. Surely our world must be constructed in such an ingenious way that some of the assumptions that Einstein, Bell and others found quite natural will turn out to be wrong. But how this will come about, I do not know. Anyway, for me, the hidden variables hypothesis is still the best way to ease my conscience about quantum mechanics. And as for no-go theorems, we will encounter several of these and discuss their fate."