In this talk, we study some Prandtl-type boundary layer models, including the two-dimensional MHD boundary layer equations and the Prandtl–Shercliff model. For small perturbations of a tangential background magnetic field, we establish the global-in-time existence and uniqueness of solutions to the MHD boundary layer equations in Sobolev spaces. The proof relies on a novel combination of the well-known cancellation mechanism and the concept of linearly good unknowns. We also investigate the Prandtl–Shercliff model. In the two-dimensional case, we establish global-in-time well-posedness in Sobolev spaces without imposing any structural assumptions on the initial data. Moreover, we show that solutions exhibit a global analytic regularization effect in all variables, up to the boundary and for all times. The proofs rely crucially on the intrinsic nonlocal diffusion induced by the Shercliff boundary layer.