The mechanisms involved in the reprogramming of differentiated cells into induced Pluripotent Stem (iPS) cells by Oct4, Klf4 and Sox2 (3F) remain poorly understood 1 . The Ink4/Arf tumour suppressor locus encodes three potent inhibitors of proliferation, namely p16 Ink4a , p15 Ink4b and Arf, which are basally expressed in differentiated cells and upregulated by aberrant mitogenic signals 2-4 . We show here that the locus is completely silenced in iPS cells, as well as in embryonic stem (ES) cells, acquiring the epigenetic marks of a bivalent chromatin domain, and retaining the ability to be reactivated upon differentiation. Cell culture conditions during reprogramming enhance the expression of the Ink4/Arf locus, further highlighting the importance of silencing the locus to allow proliferation and reprogramming. Indeed, the 3F together repress the Ink4/Arf locus soon after their expression and concomitant with the appearance of the first molecular markers of stemness. This downregulation also occurs in cells carrying the oncoprotein large-T, which functionally inactivates the pathways regulated by the Ink4/Arf locus, thus implying that the silencing of the locus is intrinsic to reprogramming and not the result of a selective process. Genetic inhibition of the Ink4/Arf locus has a profound positive impact on the efficiency of iPS generation, increasing both the kinetics of reprogramming and the number of emerging iPS colonies. In murine cells, Arf, rather than Ink4a, is the main barrier to reprogramming through activation of p53 and p21; whereas, in human fibroblasts, INK4a is more important than ARF. Finally, organismal aging upregulates the Ink4/Arf locus 2,5 and, accordingly, reprogramming is less efficient in cells from old organisms, but this defect can be rescued by inhibiting the locus with an shRNA. All together, we conclude that the silencing of Ink4/Arf locus is rate limiting for reprogramming, and its transient inhibition may significantly improve the generation of iPS.The Ink4/Arf tumour suppressor locus encodes three important tumour suppressors that activate two critical anti-proliferative pathways, namely, the Rb and p53 pathways, whose activation prevents the propagation of aberrant cells, either by apoptosis or senescence (see scheme in Supplementary Fig. S1) 4 . Briefly, the paralogs p16 Ink4a and p15 Ink4b bind and inhibit the cyclin D-dependent kinases Cdk4 and Cdk6, which in turn are important to relieve the cell-cycle inhibitory activity of the Rb tumour suppressor. On the other hand, Arf
