Reduction of the two "closed" [6,6] methanofullerenes, [6,6]C61H2 (1) and [6,6]C71H2 (5), to the corresponding hexaanions with lithium metal causes the bridgehead-bridgehead bonds to open, at least partially, and this change gives rise to diamagnetic ring currents in the resulting homoconjugated six-membered rings (6-MRs). These new ring currents shield the overlying hydrogen atoms on the methylene bridge and induce upfield shifts of 1.60 and 0.11 ppm in their H-1 NMR resonances, respectively. Analogous reduction of the already "open" [5,6]methanofullerenes, [5,6]C61H2 (2) and [5,6]C71H2 (3 and 4), only slightly enhances the shielding of the hydrogen atoms over the homoconjugated 6-MRs (upfield shifts of 0.13, 0.68, and 0.14 ppm, respectively) but leads to exceptionally strong diamagnetic ring currents in the homoconjugated five-membered rings (5-MRs), as evidenced by dramatic shielding of the hydrogen atoms situated over them (upfield shift of 5.01, 6.78, and 1.63 ppm, respectively). The strongest shielding is seen for the hydrogen atom sitting over the 5-MR at the pole of C71H26- (delta = -0.255 ppm) indicating that the excess charge density is concentrated at the poles.