Jennifer L. Cruise scite author profile

Addition of norepinephrine to primary cultures of adult rat hepatocytes stimulates the incorporation of [3H]thymidine in a dose-dependent manner. This effect has been observed in serum-free medium containing epidermal growth factor and insulin. Stimulation of DNA synthesis by norepinephrine was strongly antagonized by the alpha 1-adrenergic antagonist prazosin but not by an alpha 2 antagonist or by a beta-adrenergic blocker. The beta agonist isoproterenol did not stimulate significant DNA synthesis. These results indicate that catecholamines interact with the alpha 1 adrenoreceptor to stimulate DNA synthesis in hepatocytes. Since alpha 1 receptors are present in most cells, this receptor may be important in cell growth regulation.

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α1-Adrenergic effects and liver regeneration

Cruise

et al. 1987

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The effects of several treatments involving alpha-adrenergic mechanisms upon the early stages of rat liver regeneration were examined. Catecholamine concentrations in rat plasma were measured at various times after hepatectomy and were found to be elevated relative to those in plasma from sham-operated rats. Surgical hepatic denervation or injection of an alpha 1-adrenergic receptor antagonist (prazosin) reduced incorporation of [3H]thymidine into liver DNA during the first 24 hr after partial hepatectomy. Chronic guanethidine injections (3 to 6 weeks) reduced liver catecholamine levels, but did not affect its ability to regenerate. The inhibition of regenerative DNA synthesis by prazosin was preceded by an alteration in the binding of epidermal growth factor to regenerating liver, which was apparently the result of an increased number of epidermal growth factor receptors. Thus, alpha 1-adrenergic blockade, which affects both epidermal growth factor receptor binding and subsequent DNA synthesis in hepatocyte primary cultures, can also modulate these processes during liver regeneration in vivo.

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Norepinephrine modulates the growth‐inhibitory effect of transforming growth factor‐beta in primary rat hepatocyte cultures

Houck

Cruise

Michalopoulos

1988

Journal Cellular Physiology

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TGF-beta is a potent inhibitor of EGF-induced DNA synthesis in primary rat hepatocyte cultures. Norepinephrine (NE) was shown to modulate this inhibition of DNA synthesis. It produced a five-fold increase, from 2.8 pM to 14.4 pM, in the ID50 for TGF-beta. The effect was dose-dependent and was significant at concentrations of 10(-6)M NE and greater. The modulation by NE was mediated by the alpha 1-adrenergic receptor as shown by the ability of the alpha 1 antagonist prazosin to block the activity. This effect might be important during liver regeneration in allowing escape of hepatocytes from negative growth control exerted by TGF-beta.

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