Objectives and methods: Activation of hepatocyte hormonal receptors leads to the mobilization of intracellular Ca2+ which is thought to be an elaborate system for encoding hormonal messages. We studied hormone-induced calcium signals in freshly isolated multicellular systems of normal rat and human hepatocytes. Calcium signals were recorded by videomicroscopy after stimulation with noradrenaline, angiotensin II, and vasopressin.
Results: Calcium signals were highly organized in multiplets: the different hepatocytes responded to Ca(2+)-mobilizing hormones in a sequentially ordered manner, with a first, a second (doublets) and a third (triplets) responding cells. This pattern was an intrinsic feature of the multicellular systems, and seemed to be a result of a gradual heterogeneity of the sensitivity of the different cells, to the hormones. The stimulation of the same multiplet with two different agonists and the removal of the hormone during cell responses provides some evidence for the major role of hormonal receptors in this heterogeneity.
Conclusions: Hormone responses in multicellular systems of rat and human hepatocytes are highly elaborate. The density of hormonal receptors could be the major determinant of the sequential pattern of Ca2+ responses. Hormonal receptors may be gradually distributed among the different cells of the multiplets in vitro and along the porto-centrilobular axis in situ.