Inhibition of entry of HIV-1 in neural cell lines by antibodies against galactosyl ceramide
JM Harouse, S Bhat, SL Spitalnik, M Laughlin… - Science, 1991 - science.org
JM Harouse, S Bhat, SL Spitalnik, M Laughlin, K Stefano, DH Silberberg…
Science, 1991•science.orgAlthough the CD4 molecule is the principal cellular receptor for the human
immunodeficiency virus (HIV), several CD4-negative cell lines are susceptible to infection
with one or more HIV strains. These findings indicate that there are alternate modes of viral
entry, perhaps involving one or more receptor molecules. Antibodies against galactosyl
ceramide (galactocerebroside, or GalC) inhibited viral internalization and infection in two
CD4-negative cell lines derived from the nervous system: U373-MG and SK-N-MC …
immunodeficiency virus (HIV), several CD4-negative cell lines are susceptible to infection
with one or more HIV strains. These findings indicate that there are alternate modes of viral
entry, perhaps involving one or more receptor molecules. Antibodies against galactosyl
ceramide (galactocerebroside, or GalC) inhibited viral internalization and infection in two
CD4-negative cell lines derived from the nervous system: U373-MG and SK-N-MC …
Although the CD4 molecule is the principal cellular receptor for the human immunodeficiency virus (HIV), several CD4-negative cell lines are susceptible to infection with one or more HIV strains. These findings indicate that there are alternate modes of viral entry, perhaps involving one or more receptor molecules. Antibodies against galactosyl ceramide (galactocerebroside, or GalC) inhibited viral internalization and infection in two CD4-negative cell lines derived from the nervous system: U373-MG and SK-N-MC. Furthermore, recombinant HIV surface glycoprotein gp120 bound to GalC but not to other glycolipids. These results suggest a role for GalC or a highly related molecule in HIV entry into neural cells.
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