In order to gain information on the putative involvement of polyamines (PAs) in the response of rice cells to salinity, mature embryo-derived calli issued from the salt-sensitive cultivar I Kong Pao were exposed for 3 months to the simultaneous presence of NaCl (0, 150 and 300 mM) and exogenous polyamines (putrescine (Put): 1 and 10 mM; spermidine (Spd): 1 and 10 mM; spermine (Spm): 1 mM). Callus growth, endogenous PAs, Na+, K+ and Cl− concentrations were quantified and analysed in relation to cell viability based on 2,3,5-triphenytetrazolium chloride (TTC) reduction. All exogenous PAs were efficiently absorbed from the external medium. Exogenous Put 1 mM clearly stimulated growth of salt-stressed calli in relation to a decrease in both Na+ and Cl− accumulation. In contrast, Spd 10 mM and Spm 1 mM exacerbated the deleterious impact of NaCl on callus growth and induced a decrease in K+ concentration. While Put helped in the maintenance of cell viability, Spd 10 mM and Spm 1 mM decreased cell viability, mainly in relation to an inhibition of the alternative respiratory pathway. It is proposed that Put may assume positive functions in salt stress resistance in rice.