Interleukin-4 and interleukin-6 are multifunctional regulatory proteins, which participate both in haemopoiesis and in immunopoiesis. The alternative splicing of these interleukins in humans is known to proceed in a tissue-specific manner. Additionally, changes in splicing can also be dependent on tissue pathology. In this work, we report on the presence of alternatively spliced mRNA (IL-4delta2mRNA), lacking exon 2, in mouse bone marrow and spleen cells. We find that in unstimulated cells IL-4mRNA levels strongly dominate over IL-4delta2mRNA levels. Both increase in response to stimulation, with the concentration of the alternative variant rising earlier and faster than that of the full-length variant. In all other tissues studied dominance of IL-4delta2mRNA over the full-length variant was not observed. In addition, we find expression of three forms of IL-6 mRNA: the full-length IL-6 mRNA, IL-6Delta3 mRNA, and IL-6Delta5 mRNA in the second and third trimester placenta tissue and in the spleen of mice immunized with a high dose of sheep erythrocytes. It is anticipated that translation of these mRNA variants can generate proteins capable of binding to some subunits of the IL-6 receptor, thus possessing effector function. Alternative splicing is discussed as a source of cytokines with new regulatory properties.