We are interested in stochastic control problems coming from mathematical finance and, in particular, related to model uncertainty, where the uncertainty affects both volatility and intensity. This kind of stochastic control problem is associated to a fully nonlinear integro-partial differential equation, which has the peculiarity that the measure (\u3bb(a, \ub7))_a characterizing the jump part is not fixed but depends on a parameter a which lives in a compact set A of some Euclidean space R^q . We do not assume that the family (\u3bb(a, \ub7))_a is dominated. Moreover, the diffusive part can be degenerate. Our aim is to give a BSDE representation, known as a nonlinear Feynman-Kac formula, for the value function associated with these contro...