Background: Plasticity of the primary motor cortex (M1) has a critical role in motor control and learning. The cerebellum facilitates these functions using sensory feedback. Objective: We investigated how cerebellar degeneration influences the plasticity of the M1 by using PAS (paired associative stimulation) technique. PAS involves repeated pairs of electrical stimuli to the median nerve and transcranial magnetic stimulation (TMS) of the motor cortex. If the interval between peripheral and TMS stimulation is around 21–25 ms, corticospinal excitability is increased via a long term potentiation (LTP)-like effect within M1. Our aims were: (i) to explore the presence of a time-specific influence of cerebellar degeneration on human associative plasticity; (ii) to evaluate the role played by somatosensory pathway on cerebellar modulation of sensory-motor plasticity. Methods: We studied 10 patients with pure cerebellar atrophy and 10 age-matched healthy subjects. Motor-evoked-potentials amplitudes, short-afferent inhibition (SAI), motor thresholds, I/O curves, somatosensory-evoked-potential (SEP) were measured before, just after and 30 min after PAS at ISIs (interstimulus intervals) of 21.5 and 25 ms. Results: Cerebellar patients show a selective lack of LTP-like effect induced by PAS25 ms, but not at 21.5 ms. SAI was overall not truly modulated by PAS but clearly differed between cerebellar patients and healthy subjects for ISIs around 25 ms (+6 ms and +8 ms) (P