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Melanotropin Receptors II. Synthesis and Biological Activity of α‐Melanotropin/Tobacco Mosaic Virus Disulfide Conjugates
Author(s) -
Wunderlin Rudolf,
Sharma Shub Dev,
Minakakis Panagiota,
Schwyzer Robert
Publication year - 1985
Publication title -
helvetica chimica acta
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.74
H-Index - 82
eISSN - 1522-2675
pISSN - 0018-019X
DOI - 10.1002/hlca.19850680103
Subject(s) - chemistry , tobacco mosaic virus , internalization , receptor , conjugate , dithiothreitol , peptide , agonist , biochemistry , virus , virology , biology , mathematical analysis , mathematics , enzyme
Asymmetric disulfide conjugates of mercaptosuccinyl tobacco mosaic virus (TMV ∼ SH) with N α ‐desacetyl‐ N α ‐5‐(mercaptovaleryl)‐α‐melanotropin were prepared via the S ‐sulfoderivative of the peptide. The conjugates, TMV ∼ SS ∼ α‐MSH( n ), contained up to n = 330 disulfide‐linked peptide molecules/virion. Similarly, fluorescent conjugates, Rh( m ) ∼ TMV ∼ SS ∼ α‐MSH( n ) were prepared, containing m ≈ 200 rhodamine molecules linked to the virions by thiourea bridges. Such conjugates were designed to study α‐MSH receptor localization and dynamics (mainly internalization), because the carrier virions which served to enhance specific receptor binding and as fluorescent or radioactive markers may be detached from the neuropeptides at will by reduction. Reduction occurred in solution and on the cell surface, but not in the cytoplasm, thus allowing detection of internalized agonist‐receptor complexes. The conjugates were superpotent agonists for tyrosinase stimulation in Cloudman S‐91 melanoma cell cultures, but were inactive for cyclic AMP accumulation. Their rather rapid internalization and the influence of reducing agents and other agonists on their biologic activity suggest a close connection between receptor location and biologic response as well as the presence of essential receptor HS‐groups.