Fluorescence intensity measurements and fluorescence microscopy data showed that TMA-DPH (trimethylammonium diphenylhexatriene), a cationic derivative of the fluorescence polarization probe DPH, has a considerably different behavior in L929 cultured cells than does its parent molecule. In contrast to DPH, it incorporates very rapidly in the plasma membranes of the treated cells, and remains specifically localized on the cell surface for at least 25 min. It can therefore be recommended for specific plasma membrane fluidity measurements in whole living cells. No relevant information about the localization of the probes could be obtained by other techniques used in parallel, namely: subcellular fractionation and fluorescence inhibition by trinitrobenzene sulfonate (TNBS).
Isothermal titration microcalorimetry (ITC) is mostly used to investigate the thermodynamics of “specific” host-guest interactions in biology as well as in supramolecular chemistry. The aim of this review is to demonstrate that ITC can also provide useful information about non-specific interactions, like electrostatic or hydrophobic interactions. More attention will be given in the use of ITC to investigate polyelectrolyte-polyelectrolyte (in particular DNA-polycation), polyelectrolyte-protein as well as protein-lipid interactions. We will emphasize that in most cases these “non specific” interactions, as their definition will indicate, are favoured or even driven by an increase in the entropy of the system. The origin of this entropy increase will be discussed for some particular systems. We will also show that in many cases entropy-enthalpy compensation phenomena occur.
Owing to a striking, and most likely fortuitous, structural and sequence similarity with the bacterial 16 S ribosomal A site, the RNA kissing-loop complex formed by the HIV-1 genomic RNA dimerization initiation site (DIS) specifically binds 4,5-disubstituted 2-deoxystreptamine (2-DOS) aminoglycoside antibiotics. We used chemical probing, molecular modeling, isothermal titration calorimetry (ITC) and UV melting to investigate aminoglycoside binding to the DIS loop–loop complex. We showed that apramycin, an aminoglycoside containing a bicyclic moiety, also binds the DIS, but in a different way than 4,5-disubstituted 2-DOS aminoglycosides. The determination of thermodynamic parameters for various aminoglycosides revealed the role of the different rings in the drug–RNA interaction. Surprisingly, we found that the affinity of lividomycin and neomycin for the DIS (Kd ∼ 30 nM) is significantly higher than that obtained in the same experimental conditions for their natural target, the bacterial A site (Kd ∼ 1.6 µM). In good agreement with their respective affinity, aminoglycoside increase the melting temperature of the loop–loop interaction and also block the conversion from kissing-loop complex to extended duplex. Taken together, our data might be useful for selecting new molecules with improved specificity and affinity toward the HIV-1 DIS RNA.
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