Using immunofluorescence microscopy and immunoblot analysis, we have examined the composition of the nuclear lamina in several murine and human cell lines. Whereas it was shown that intermediate filament-positive Ehrlich ascites tumor and HeLa-S3 cells contain the three major mammalian lamin subspecies, only lamin B could be detected in several myeloid- and lymphoid-derived cell lines representative of distinct stages in hemopoietic differentiation but all devoid of cytoplasmic intermediate filament proteins. These included the murine plasmacytoma cell types MPC-11 and MOPC-31C, murine myeloma cells X63-Ag8.6.5.3 and human promyelocytic leukemia cells HL-60. Our results provide the first evidence that mammalian somatic cells capable of normal proliferation may lack both cytoplasmic intermediate filament proteins and a normal complement of nuclear lamins.