Transient peaks in zinc and metallothionein levels during differentiation of 3T3L1 cells

A novel role for zinc mediated by metallothionein (MT) is found in the process of differentiation of 3T3L1 mouse fibroblasts to adipocytes. Twenty-four hours after the stimulation of differentiation by hormones, the cells enter into a phase of synchronous proliferation. In this phase the cellular contents of zinc and metallothionein rise rapidly to fivefold and threefold levels, respectively. Simultaneously MT is translocated from the cytoplasm to the nucleus. The rise of intracellular zinc is essential for the transition from G(0)/G(1)- to S-phase of the cell cycle. Deprivation ok zinc with N,N,N ',N '-tetrakis[2-pyridyl]ethylenediamine membrane-permeable zinc chelator, inhibited hormonal induced proliferation. After the short phase of proliferation a slower stage of actual differentiation to adipocytes begins. The elevated levels of MT and zinc decline quickly to start levels, and a rapid redistribution of MT to the cytoplasm occurs. We propose that the nuclear translocation of MT mediates the transfer of zinc to nuclear factors in the mitogenic process. The redistribution of MT to the cytoplasm and the decrease of the zinc content are postulated to be required for the start of the actual differentiation. (C) 1999 Academic Press.