Hepatitis C virus (HCV) binds to different human cell lines in vitro. However, the efficiency of adsorption is very low due mainly to a relatively small fraction of the virus being able to bind to these cells. Free low density lipoprotein (LDL > 200 microg/ml) is able to block the attachment of HCV to human fibroblasts in vitro completely. COS-7 cells being primarily not able to bind HCV were transfected with a vector containing the entire coding sequence of the human LDL-receptor (LDLR). HCV was now bound to these cells. We propose that HCV and LDL are competitive for the cellular LDLR and that LDL in sera of patients may regulate the binding of HCV to this target.
Polymorphisms in the interleukin-1 (IL1) gene have been suggested to influence transcription of IL1A (interleukin-1alpha) and IL1B (interleukin-1beta) and thereby the pathophysiology of periodontitis. This case-control association study on 415 northern European Caucasian patients with aggressive periodontitis (AgP) and 874 healthy controls was conducted to examine 10 single-nucleotide polymorphisms (SNPs) in the genes of the IL1 cluster for association with IL1A, IL1B, CKAP2L (cytoskeleton-associated protein 2-like), and IL1RN (IL-1 receptor antagonist). The results do not support an association between variants in the IL1 gene cluster and AgP. This case-control study had at least 95% power to detect genuine associations with variants carrying relative risks of at least 1.5 for heterozygous carriers and 2.25 for homozygous carriers. Previous reports of an association between IL1 promoter SNPs and periodontitis might reflect subpopulation effects and have to be interpreted with care.
The optimization of synthetic carriers for gene transfer remains a major challenge. Cationic polymers such as polyethylenimine (PEI) often show increasing gene transfer activity with increasing molecular weight, but this favorable effect is accompanied by an undesired increase in cytotoxicity. Moreover, the polydispersity of polymers prevents accurate determination of optimum size. Herein we describe the step-by-step elongation of precise linear oligo(ethanamino) amides by making use of the artificial amino acid succinoyl-tetraethylene pentamine (Stp) for solid-phase-assisted synthesis. This procedure enabled us to identify the optimal oligomer Stp30-W (8.4 kDa) with a length of 30 Stp units, with which effective gene transfer occurs in the absence of cytotoxicity. The transfection efficiency of Stp30-W exceeded that of standard linear PEI (22 kDa) by sixfold; nevertheless, Stp30-W exhibited tenfold lower cytotoxicity. In addition to the lower molecular weight, the succinate spacer between the oligoamine units may also contribute to the favorable biocompatibility. The cytotoxicity of the cationic polymer PEI is a major concern for use as a carrier for gene delivery, so this comparison between linear PEI and the new Stp oligomers is particularly relevant.
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