Cellular and lysosomal uptake of methylamine in isolated rat hepatocytes.

Upon addition of methylamine to intact cells, this lysosomotropic weak base accumulates intracellularly as the result of at least two different mechanisms: (1) facilitated diffusion across the plasma membrane, i.e. a process which is carrier-mediated and subject to both trans-stimulation (accelerative exchange) and cis-inhibition (competition) by other amines (e.g. ammonia, methylamine and triethylamine); this transport process is furthermore non-concentrative, energy-independent, and (although moderately temperature-sensitive) operative even at 0 degrees C; (2) active uptake, i.e. an energy-dependent concentrative process which is inhibited by anoxia and energy inhibitors. With time, methylamine accumulates in lysosomes and gives rise to a lysosomal swelling which is easily visible by optical microscopy, and which causes the cells to appear coarsely granular. After a 1h incubation with 10mM-methylamine, the total cell volume is increased by about 12%. Under anoxic conditions or in the presence of energy inhibitors, lysosomal swelling is abolished regardless of there being a high concentration of methylamine intracellularly (taken up by facilitated diffusion). The continuous accumulation of methylamine in lysosomes therefore seems to depend on an energy-requiring process (such as continuous proton pumping), and not only on trapping by Donnan-equilibrium-generated protons.