There are theoretical arguments that a _massless_ spin-2 particle has to be a graviton. The basic idea is that massless particles have to couple to conserved currents, and the only available one is the stress-energy tensor, which is the source for gravity. See this [answer][1] for more detail. However, the particle discovered at LHC this year has a mass of 125 GeV, so none of these arguments apply. It would be a great surprise if this particle did not have spin 0. But it is theoretically possible. One can get massive spin 2 particles as bound states, or in theories with infinite towers of higher spin particles. [1]: http://physics.stackexchange.com/questions/14932/why-do-we-not-have-spin-greater-than-2