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  • Title: Novel, negatively charged, human serum albumins display potent and selective in vitro anti-human immunodeficiency virus type 1 activity.
    Author: Jansen RW, Schols D, Pauwels R, De Clercq E, Meijer DK.
    Journal: Mol Pharmacol; 1993 Nov; 44(5):1003-7. PubMed ID: 7902528.
    Abstract:
    We prepared a series of modified proteins and peptides by derivatizing the positively charged epsilon-amino groups of the lysine amino acids through reaction with anhydrides of succinic acid (Suc) and aconitic acid (Aco). Human serum albumin (HSA) was modified by introduction of a single carboxylic group (Suc-HSA) or two carboxylic groups (Aco-HSA) per amine function, yielding strongly negatively charged compounds. The in vitro anti-human immunodeficiency virus (HIV)-1 IC50 of Suc-HSA was about 1 microgram/ml, and the most polyanionic modified albumin of the series (Aco-HSA) exhibited an IC50 as low as 0.02 microgram/ml. Similar derivatization of the plasma protein orosomucoid or the synthetic polypeptide polylysine did not produce compounds with significant anti-HIV-1 activity, indicating an HSA-specific effect. The mechanism of action of Suc-HSA was reported to be the inhibition of a post-binding virus-cell fusion event, probably due to interference with the gp41-mediated fusion process. In the present study we demonstrate that the more potent Aco-HSA also interferes with this fusion process but, additionally, this compound inhibits (i) the binding of soluble CD4 to HIV-infected cells, (ii) the binding of HIV particles to MT-4 cells, and (iii) the binding of anti-gp120 monoclonal antibody to the gp120 molecule. This indicates that Aco-HSA, apart from post-binding fusion, also inhibits virus-cell binding by shielding viral gp120. The simultaneous inhibition of binding and fusion may lead to a synergistic effect, explaining the extreme potency of Aco-HSA. The polyanionic HSAs are significantly less active against HIV-2 and do not interfere with the replication of feline immunodeficiency virus or 12 other DNA or RNA viruses, indicating a HIV-1-specific effect. In contrast, another polyanionic compound, the sulfated polysaccharide dextran sulfate, inhibits the replication of various viruses in a more nonspecific way, as a general polyanion. Dextran sulfate also exhibits strong anticoagulant activity, whereas Suc-HSA and Aco-HSA do not show this unwanted side effect.
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