Antimicrobial peptides (AMPs) are a group of peptides that are active against a diverse spectrum of microorganisms. Due to their mode of action, AMPs are a promising class of molecules that could overcome the problems of increasing resistance of bacteria to conventional antibiotics. Furthermore, AMPs are strongly membrane-active and some are able to translocate into cells without the necessity for permanent membrane permeabilization. This feature has brought them into focus for use as transport vectors in the context of drug delivery. Since the plasma membrane restricts transport of bioactive substances into cells, great research interest lies in the development of innovative ways to overcome this barrier and to increase bioavailability. In this context, peptide-based transport systems, such as cell-penetrating peptides (CPPs), have come into focus, and their efficiency has been demonstrated in many different applications. However, more recently, also some AMPs have been used as efficient vectors for intracellular translocation of various active molecules. This review summarizes recent efforts in this interesting field of drug delivery. Moreover, some examples of the application of CPPs as efficient antimicrobial substances will be discussed.
Over the past years, numerous promising new metalorganic lead structures have been developed exhibiting highly active cytostatic properties. However, the efficiency of such chemotherapeutics in the treatment of tumors is often limited by their low therapeutic index due to their short half-life, lack of tumor selectivity, and associated side effects. Furthermore, the membrane barrier often restricts their cellular uptake by passive diffusion. In this contribution, we describe the synthesis, cellular uptake, and biologic activity of a series of cymantrene-peptide conjugates. Cymantrene CpMn(CO)(3) is a robust organometallic group, which is stable in air and water and easy to functionalize. In this work, some new cymantrene derivatives with different linkers between the half-sandwich complex and the carboxylate group were attached to the cell-penetrating peptide sC18 that should act as a transporter for the metal moiety. All conjugates were characterized for their cytotoxic activity on human breast adenocarcinoma cells (MCF-7) and human colon carcinoma cells (HT-29). We found that bioconjugates bearing two cymantrene groups were more active than the monofunctionalized ones. By the introduction of a cathepsin B cleavage site next to the organometallic group, the biologic activity could be in increased even further. Fluorescence microscopy studies and apoptosis assays gave preliminary hints on the mode of action of these systems.
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