Murine serum deoxyribonuclease 1 (Dnase1) activity partly originates from the liver.

Reduction of serum DNASE1 (DNase I) activity is supposed to aggravate anti-nuclear autoimmunity, i.e. Systemic Lupus Erythematosus (SLE) in man and mice. To evaluate the etiology of this reduction, more information is needed about the source(s) and regulation of serum DNASE1. In this work we used male C57BL/6 wild-type (WT) mice to verify that serum Dnase1 activity partly depends on hepatic Dnase1 gene expression. Thus serum and liver Dnase1 activity showed a parallel oscillatory course during 24h, which was accompanied by a phase-shifted fluctuation of the hepatic Dnase1 mRNA content. Performing native PAGE zymography (NPZ) we detected a presumably premature non-sialylated and a mature sialylated hepatic Dnase1 isoform, which both show a parallel circadian fluctuation, indicating continuous secretion of Dnase1. The sialylated form was also detectable in serum. By immunostaining the hepatocytes were identified as the source of hepatic Dnase1 gene expression. After 70% hepatectomy, the serum Dnase1 activity increased markedly due to the occurrence of ischemic hepatocellular necrosis in the vicinity of the surgical suture. Similarly, hepatocellular necrosis induced by injection of streptolysin-O (SLO) into the liver led to a rapid parallel increase of Dnase1 and of aspartate- and alanine aminotransferase (AST/ALT) in serum. Subsequent to hepatectomy, Dnase1 gene expression was up-regulated in the regenerating liver most likely leading to an enhanced serum Dnase1 level until complete regeneration. These data demonstrate that serum Dnase1 at least partly originates from the liver and hint to the possibility that natural as well as pathological hepatic conditions influence its activity.