Biological significance of liver cell polyploidy: an hypothesis

Abstract

The liver cell polyploidy phenomenon, a characteristic of many species of mammals, is reviewed. The liver parenchyma of adult animals represents a mixed population of mononuclear and binuclear cells with different number of chromosome sets and, therefore DNA content per nucleus. The polyploid hepatocytes are formed during postnatal liver growth as a result of a change from normal mitoses to polyploidizing ones. Hence, the polyploidization of hepatocytes is regarded as an equivalent of cell multiplication. An hypothesis of the biological significance of liver cell polyploidy is based on the fact of a high level of spontaneous chromosome aberrations in mitotic hepatocytes. Ploidy increase is known to give resistance against different kinds of genome alteration. Polyploidization of the liver cells ensures protection against deleterious consequences of the aberrant genome formation resulting from aberrant mitoses. Some implications of the hypothesis are discussed: the reasons for species-specific differences of liver cell polyploidy; the mechanisms of hepatocyte radioresistance; the relation of polyploidy to liver cell aging. The prerequisite factors for unbalanced cell genome formation are adduced: DNA and chromosome damage as the first step in the process, stimulation of mitosis as the second one. The aberrant polyploid genome of hepatocytes is assumed to be the cytogenetic basis for some chronic liver diseases in man.