| Abstrakt: |
Irreversible liver cirrhosis was induced in rats by supplementing their diet with 0.02% azathioprine and intubating them twice a week with carbon tetrachloride in corn oil. Over a period of 3 mo, intoxicated rats showed an atypical acute-phase reaction (APR). The relative concentrations of haptoglobin,-lipoprotein,-1-antitrypsin, an unknown peak "X," and transferrin increased exponentially following a mild initial drop, while album in, C 3c + C 3, -1-acid glycoprotein,-1-lipoprotein, and macroglobulin declined continually during the experiment. The accumulated peritoneal fluid was found to contain a similar spectrum of APR proteins. On the other hand, histological examination revealed gradual liver damage manifested as a gradual increase in the areas of collagen separating liver cells, and at the end of the experiment, severe liver damage was evident with isolated hepatocytes in a matrix of collagen. The available data point to the disparity that exists between the physical status of hepatocytes and their biochemical function, which suggests that the remaining metabolically fatigued hepatocytes of the cirrhotic liver continue to biosynthesize and release elevated concentrations of some secretable APR proteins and less of others. Changes in the spectrum of APR plasma components during the progression of inflammatory or physical lesion remain a valid biochemical measure of the pathological function of the acutely intoxicated liver. Partial hepatectomy (PH) of cirrhotic liver displayed a mute APR and no regenerative activity of the remnant hepatic tissue, most likely due to the substantial depletion of hepatic DNA and possible chemical damage to DNA of the remaining viable hepatocytes. A possible cause for the depressed APR to the surgical insult of PH is that the initial azathioprine CCl4 intoxication had maximally affected APR gene expression and a second injury would then elicit minimal further changes in m RNA levels. Thus, in a compounded pathological condition, the initial inflammatory stimulus on various pre-rRNAs, rRNAs, and mRNAs is rate-limiting to the hepatic biosynthesis and secretion of APR proteins and may not respond linearly, if at all, to a second stimulus. [ABSTRACT FROM AUTHOR] |
