Morena Simonato

Anthrax toxins inhibit immune cell chemotaxis by perturbing chemokine receptor signalling

Pathogenic strains of Bacillus anthracis produce two potent toxins, lethal toxin (LT), a metalloprotease that cleaves mitogen‐activated protein kinase kinases, and oedema toxin (ET), a calcium/calmodulin‐dependent adenylate cyclase. Emerging evidence indicates a role for both toxins in suppressing the initiation of both innate and adaptive immune responses, which are essential to keep the infection under control. Here we show that LT and ET inhibit chemotaxis of T‐cells and macrophages by subverting signalling by both CXC and CC chemokine receptors. The data highlight a novel strategy of immunosuppression by B. anthracis based on inhibition of immune cell homing.

Ratio of lethal and edema factors in rabbit systemic anthrax.

Bacillus anthracis secretes two binary toxins: lethal toxin (PA + LF) and edema toxin (PA + EF) that play a major role in the pathogenesis of anthrax. Their activities can synergize or interfere among each other, depending on the cell type. It is therefore fundamental to know their concentration ratio in vivo. Here, we report the first determination of the concentration ratio of anthrax toxin components LF/EF in the serum of rabbits infected with B. anthracis spores.

Pyran derivatives: Part XXI. Antiproliferative and cytotoxic properties of novel N-substituted 4-aminocoumarins, their benzo-fused derivatives, and some related 2-aminochromones

The N-substituted tricyclic 2-aminochromone derivatives 1a, 2a, and 2b were obtained by treating the corresponding (methylthio) or (methylsulfinyl) derivatives 10, 11, or 12, respectively, with an excess of the proper amines. Compound 2c was synthesized through the reaction of 2-naphthol with the ethyl N,N-diphenylmalonamate/POCl(3) reagent 14. The N-substituted 4-aminocoumarin bicyclic and tricyclic derivatives 5-8 were prepared by treating the corresponding chloro derivatives with the excess suitable amines. Compounds 1, 2, 5-8 were tested in vitro for their antiproliferative activity (DNA synthesis inhibition in Ehrlich cells) and cytotoxicity (MTT test in HeLa cells). The inhibitory properties of three selected compounds (5c, 5e, 7c) on protein and RNA syntheses in Ehrlich cells were also evaluated. Among the 27 compounds tested, 10 4-aminocoumarin derivatives (5-8) and two 2-aminochromone derivatives (1a and 2a) showed an appreciable antiproliferative activity (IC(50) range: 1.74-13.8 microM), whereas only four compounds 5-8 exhibited a comparable cytotoxic activity (IC(50) range: 4.95-12.9 microM).

4-Hydroxymethyl- and 4-methoxymethylfuro[2,3-h]quinolin-2(1H)-ones: synthesis and biological properties

4-Hydroxymethyl-1,6,8-trimethylfuro[2,3-h]quinolin-2(1H)-one (HOFQ) was prepared by a new profitable way, which allowed to synthesize also 4-methoxymethyl-1,6,8-trimethylfuro[2,3-h]quinolin-2(1H)-one (MOFQ), and 4-hydroxymethyl-6,8-dimethylfuro[2,3-h]quinolin-2(1H)-one (HOHFQ). Some biological activities of the three compounds were studied in comparison with 8-MOP. In the dark, they inhibited topoisomerase II, leading to a moderate antiproliferative activity in mammalian cells. The antiproliferative activity was also tested upon UVA irradiation in mammalian cells: all compounds showed higher activity than 8-MOP, without mutagenicity and skin phototoxicity, with the best results for HOFQ. Photobinding to DNA was investigated, demonstrating a different sequence specificity for these furoquinolinones in comparison with furocoumarins. For all these features, HOFQ and the other analogues appeared very promising photochemotherapeutic agents, whose mechanism of action will be further investigated.

A Lys49-PLA2 myotoxin of Bothrops asper triggers a rapid death of macrophages that involves autocrine purinergic receptor signaling

Lys49-PLA2 myotoxins, an important component of various viperid snake venoms, are a class of PLA2-homolog proteins deprived of catalytic activity. Similar to enzymatically active PLA2 (Asp49) and to other classes of myotoxins, they cause severe myonecrosis. Moreover, these toxins are used as tools to study skeletal muscle repair and regeneration, a process that can be very limited after snakebites. In this work, the cytotoxic effect of different myotoxins, Bothrops asper Lys49 and Asp49-PLA2, Notechis scutatus notexin and Naja mossambica cardiotoxin, was evaluated on macrophages, cells that have a key role in muscle regeneration. Only the Lys49-myotoxin was found to trigger a rapid asynchronous death of mouse peritoneal macrophages and macrophagic cell lines through a process that involves ATP release, ATP-induced ATP release and that is inhibited by various purinergic receptor antagonists. ATP leakage is induced also at sublytical doses of the Lys49-myotoxin, it involves Ca2+ release from intracellular stores, and is reduced by inhibitors of VSOR and the maxi-anion channel. The toxin-induced cell death is different from that caused by high concentration of ATP and appears to be linked to localized purinergic signaling. Based on present findings, a mechanism of cell death is proposed that can be extended to other cytolytic proteins and peptides.

Pyran derivatives.XX. 2-Aminochromone benzo-fused derivatives with antiproliferative properties

The N-substituted 2-aminochromones 1 and their benzo-fused derivatives 2-4 described herein were mostly prepared by treating the corresponding (methylthio) derivatives 10-13 with an excess of the proper amines. Only the morpholino derivatives 3d and 4c were obtained from the reaction of the ethyl 3-morpholino-3-oxopropanoate/POCl3 reagent with 1-naphthol or 1-methyl-2-naphthol, respectively. The amino derivatives 1-4, as well as their methylthio analogues 10-13, were tested in vitro for their inhibitory activity on the infectivity of T2 bacteriophage, on the macromolecular synthesis in Ehrlich cells and on the clonal growth capacity of HeLa cells. Several of the angular or linear aminonaphthopyranones 2 and 3 or 4, respectively, and the (methylthio) derivatives 10, 11 and 13 induced a significant inhibition of DNA synthesis, but usually a clearly lower inhibition of clonal growth. Only the linear 2-amino-10-methyl-4H-naphtho[2,3-b]pyran-4-ones 4a and 4b significantly inhibited the clonal growth in HeLa cells and T2 bacteriophage infectivity, respectively.

Synthesis and biological properties of a new series of N-pyrido substituted tetrahydrocarbazoles.

A series of methyl and ethyl quaternary pyridiniumtetrahydrocarbazoles was synthesized and studied in comparison with ellipticine, chosen as a reference. In general, their antiproliferative activity, tested in different biological substrates, appeared to be higher than that of the corresponding non-quaternarized compounds. This fact could be attributed to the introduction of a positive charge in the molecule, which can stabilize the molecular complex they form with DNA. In a prokaryotic system, the T2 bacteriophage, both quaternarized and non-quaternarized compounds inhibited its infectivity moderately, in a similar way to ellipticine. This effect seemed to be connected to a direct activity on the virions rather than on the indicator bacteria. In mammalian cells, the pyridiniumtetrahydrocarbazoles were more effective. In particular, they appeared to be very active in inhibiting DNA synthesis in Ehrlich ascites cells; some of them were as effective as ellipticine. However, pyridiniumtetrahydrocarbazoles were less active in comparison with ellipticine when their capacity for inhibiting the clonal growth in Chinese hamster ovary (CHO) cells was tested. A similar picture was obtained studying the formation of chromosome aberrations and of sister chromatid exchanges in the same cells. These different responses can be explained considering that the data on DNA synthesis reflect effects only on DNA replication within a short time, without considering any later consequences; on the contrary, in the long-term tests, other events, which lead to cell killing or genotoxicity, can take place. Pyridiniumtetrahydrocarbazoles damage DNA, inducing double-strand breaks efficiently. These observations, together with the data already obtained on unsubstituted derivatives, suggest the pyridiniumtetrahydrocarbazoles induce antiproliferative and genotoxic effects, very probably by inhibiting topoisomerase II.

Production in Escherichia coli, folding, purification and characterization of notexin with wild type sequence and with N-terminal and catalytic site mutations

Notexin (Ntx) is a group I phospholipase A2 (PLA2) protein, main component of the Australian snake Notechis scutatus scutatus venom. It is both a presynaptic neurotoxin and a myotoxin. In this work, for the first time, a method for the production and folding of recombinant Ntx was developed. Ntx was produced with wild type sequence (rNtx), with an extra peptide (T7-Ntx) or a methionine (M-Ntx) before Asn-1, and with Asn-1 substituted by alanine (Ntx-A1) or by serine (Ntx-S1). The proteins were analyzed for their catalytic and toxic activities. rNtx activity resulted to be comparable to that of the venom extracted protein. The Ntx N-terminus was found to have a major influence on both the catalytic and toxic activities of the protein. The first amino acid of snake venom PLA2s is highly conserved: it is an asparagine in about all group I PLA2s, while in most (>70%) of group II PLA2s it is a serine or an asparagine. Interestingly, Ntx-S1 resulted to be, for both enzymatic and toxic activities, the mutant most similar to the wild type protein. The role of the catalytic activity of Ntx in its toxicity was investigated by replacing the aspartic acid 49, involved in the coordination of the cofactor calcium ion, by a lysine. The obtained mutant (Ntx-K49) is deprived of catalytic activity but possesses a residual toxicity.

T4 Phage Photoinactivation by Linear Furocoumarins and Angular Furoquinolinones

Linear furocoumarins (psoralens) are active sensitizers that can damage numerous cell components such as nucleic acids, 2] proteins, and lipids. 5] However, DNA is the main cellular target in which various lesions can be introduced: monofunctional adducts with pyrimidine bases (MA) and bifunctional adducts, cross-links between two adjacent pyrimidine bases (interstrand cross-links; ISC), and covalent linkages between DNA and proteins (DNA–protein cross-links; DPC). Furocoumarins are widely used in photomedicine (PUVA therapy) for the treatment of various skin diseases and in photopheresis to prevent rejection in organ transplantation. Recently, furocoumarins have also been proposed as sterilizing agents for blood preparations because they provide various advantages over conventional techniques; indeed, furocoumarins affect a wide spectrum of microorganisms, including viruses, with a decreased capacity for affecting blood components. Whereas the mechanism of furocoumarin sensitization on mammalian cells, yeast, and bacteria has been extensively studied, only a few reports concerning the furocoumarin mechanism of virus inactivation have been published. The studies reported herein have addressed some aspects of this problem by using the simple and well-known T4 bacteriophage model ; we checked the sensitivity of T4 in both its mature virion and vegetative forms. Three very active photosensitizing derivatives were chosen: a well-known linear furocoumarin, 4,5’,8-trimethylpsoralen (TMP) and two angular furoquinolinones: 1,4,6,8-tetramethyl-2H-furo ACHTUNGTRENNUNG[2,3-h]quinolin-2one (FQ) and 4,6,8,9-tetramethyl-2H-furo ACHTUNGTRENNUNG[2,3-h]quinolin-2one (HFQ) (Figure 1). These compounds were selected for their different capacities for inducing various lesions in DNA, in particular bifunctional adducts, ISCs, and/or DPCs. Furocoumarins and their homologues form C4-cycloadducts with pyrimidine bases (MA) through the double bonds at either the 3,4 position or on the furan group; adducts formed through the latter process can absorb light and thus further react with an another pyrimidine group to yield an ISC. Alternatively, this second reaction can involve a protein to form a DPC. All three derivatives chosen can form various MAs in DNA, but TMP is known to be capable of inducing numerous ISCs and DPCs as well. FQ and HFQ efficiently form DPCs, but not ISCs, a behavior common to all furocoumarins with an angular molecular structure. In fact, FQ and HFQ are potentially bifunctional molecules, but for geometric reasons they behave as monofunctional reactive compounds when intercalated into DNA. We initially studied the response of mature T4 virions and T4 in its vegetative form (phage DNA injected into recipient bacteria, blocked by starvation), that is, before and after the infection process, respectively. Under suitably selected mild experimental conditions, all compounds showed a strong killing activity toward T4 virions but not the vegetative form (Figure 2).

Cell surface nucleolin interacts with and internalizes Bothrops asper Lys49 phospholipase A 2 and mediates its toxic activity

Phospholipases A2 are a major component of snake venoms. Some of them cause severe muscle necrosis through an unknown mechanism. Phospholipid hydrolysis is a possible explanation of their toxic action, but catalytic and toxic properties of PLA2s are not directly connected. In addition, viperid venoms contain PLA2-like proteins, which are very toxic even if they lack catalytic activity due to a critical mutation in position 49. In this work, the PLA2-like Bothrops asper myotoxin-II, conjugated with the fluorophore TAMRA, was found to be internalized in mouse myotubes, and in RAW264.7 cells. Through experiments of protein fishing and mass spectrometry analysis, using biotinylated Mt-II as bait, we found fifteen proteins interacting with the toxin and among them nucleolin, a nucleolar protein present also on cell surface. By means of confocal microscopy, Mt-II and nucleolin were shown to colocalise, at 4 °C, on cell membrane where they form Congo-red sensitive assemblies, while at 37 °C, 20 minutes after the intoxication, they colocalise in intracellular spots going from plasmatic membrane to paranuclear and nuclear area. Finally, nucleolin antagonists were found to inhibit the Mt-II internalization and toxic activity and were used to identify the nucleolin regions involved in the interaction with the toxin.