QSAR analysis of five generations of cephalosporins to establish the structural basis of activity against methicillin-resistant and methicillin-sensitive Staphylococcus aureus.

Solving the worldwide problem of growing bacterial drug resistance will require a short-run and medium-term strategy. Structure-activity relationship (SAR) and quantitative SAR (QSAR) analyses have recently been utilized to reveal the molecular basis of the antibacterial activity and antibacterial spectrum of penicillins, the use of which is no longer solely empirical. Likewise, a more rational drug design can be achieved with cephalosporins, the largest group of ß-lactam antibiotics. The current contribution aimed to establish the molecular and physicochemical basis of the antibacterial activity of five generations of cephalosporins on methicillin-sensitive (MSSA) and methicillin-resistant Staphylococcus aureus (MRSA). With SAR and QSAR analyses, the molecular portions that provide essential and additional antibacterial activity were identified. The substitutions with greater volume and polarity on the R2 side chain of the cephem nucleus increase potency on MSSA. The best effect is produced by substitutions with polar nitrogen atoms at the alpha-carbon (Cα). Substitutions with greater volume and polarity on the R1 side chain further enhance antibacterial activity. In contrast, the effect against MRSA seems to be independent of any substitution on R2 or at the Cα, while depending on the accessory portions with greater volume and polarity on R1.

Riluzole, a Derivative of Benzothiazole as a Potential Anti-Amoebic Agent against Entamoeba histolytica.

Amoebiasis is produced by the parasite Entamoeba histolytica; this disease affects millions of people throughout the world who may suffer from amoebic colitis or amoebic liver abscess. Metronidazole is used to treat this protozoan, but it causes important adverse effects that limit its use. Studies have shown that riluzole has demonstrated activity against some parasites. Thus, the present study aimed, for the first time, to demonstrate the in vitro and in silico anti-amoebic activity of riluzole. In vitro, the results of Entamoeba histolytica trophozoites treated with IC50 (319.5 µM) of riluzole for 5 h showed (i) a decrease of 48.1% in amoeba viability, (ii) ultrastructural changes such as a loss of plasma membrane continuity and alterations in the nuclei followed by lysis, (iii) apoptosis-like cell death, (iv) the triggering of the production of reactive oxygen species and nitric oxide, and (v) the downregulation of amoebic antioxidant enzyme gene expression. Interestingly, docking studies have indicated that riluzole presented a higher affinity than metronidazole for the antioxidant enzymes thioredoxin, thioredoxin reductase, rubrerythrin, and peroxiredoxin of Entamoeba histolytica, which are considered as possible candidates of molecular targets. Our results suggest that riluzole could be an alternative treatment against Entamoeba histolytica. Future studies should be conducted to analyze the in vivo riluzole anti-amoebic effect on the resolution of amebic liver abscess in a susceptible model, as this will contribute to developing new therapeutic agents with anti-amoebic activity.

What are the origins of growing microbial resistance? Both Lamarck and Darwin were right.

INTRODUCTION: Microorganisms of clinical importance frequently develop resistance to drug therapy, now a growing problem. The experience with Mycobacterium tuberculosis is a representative example of increasing multi-drug resistance. To avoid reaching a crisis in which patients could be left without adequate treatment, a new strategy is needed. Anti-microbial therapy has historically targeted the mechanisms rather than origin of drug resistance, thus allowing microorganisms to adapt and survive. AREAS COVERED: This contribution analyses the historical development (1943-2020) of the evolution of multi-drug resistance by M. tuberculosis strains in light of Darwin's and Lamarck's theories of evolution. EXPERT OPINION: Regarding the molecular origin of microbial drug resistance, genetic mutations and epigenetic modifications are known to participate. The analysis of the history of drug resistance by M. tuberculosis evidences a gradual development of resistance to some antibiotics, undoubtedly due to random mutations together with natural selection based on environmental pressures (e.g., antibiotics), representing Darwin's idea. More rapid adaptation of M. tuberculosis to new antibiotic treatments has also occurred, probably because of heritable acquired characteristics, evidencing Lamarck's proposal. Therefore, microbial infections should be treated with an antibiotic producing null or low mutagenic activity along with a resistance inhibitor, preferably in a single medication.

Decoding Aging: Understanding the Complex Relationship among Aging, Free Radicals, and GSH.

N-aryl maleimides can undergo a 1,4-Michael-type addition reaction with reduced glutathione (GSH), leading to a decreased concentration of GSH and an increased concentration of free radicals (FRs) in cells. GSH is a critical scavenging molecule responsible for protecting cells from oxidation and for maintaining redox homeostasis. N-aryl maleimides disturb redox homeostasis in cells because they scavenge thiol-containing molecules, especially GSH. This study aimed at measuring the concentrations of GSH and FRs by electronic paramagnetic resonance (EPR), in the brain and liver tissue of male Wistar rats (ex vivo) at different ages and after treatment with 3,5-dimaleimylbenzoic acid (3,5-DMB). Our results showed a relationship between age and the concentrations of GSH and FRs in cells. In young rats, the concentration of GSH was higher than in old rats, while the concentration of FRs was higher in adult rats than in young rats, suggesting an inverse relationship between GSH and FRs. On the other hand, the reaction of 3,5-DMB (an electrophilic maleimide) with cellular GSH increased the FR content. The results of this study contribute to the awareness that the process of aging implies not only a loss of tissue function but also essential changes in the molecular contents of cells, especially the concentrations of FRs and GSH.

Novel-Substituted Heterocyclic GABA Analogues. Enzymatic Activity against the GABA-AT Enzyme from Pseudomonas fluorescens and In Silico Molecular Modeling.

γ-Aminobutyric acid (GABA) is the most important inhibitory neurotransmitter in the central nervous system, and a deficiency of GABA is associated with serious neurological disorders. Due to its low lipophilicity, there has been an intensive search for new molecules with increased lipophilicity to cross the blood-brain barrier to raise GABA concentrations. We have designed and evaluated in vitro and in silico some new analogues of GABA, where the nitrogen atom at the γ-position is embedded in heterocyclic scaffolds and determined their inhibitory potential over the GABA-AT enzyme from Pseudomonas fluorescens. These modifications lead to compounds with inhibitory activity as it occurs with compounds 18a and 19a. The construction of Pseudomonas fluorescens and human GABA-AT models were carried out by homology modeling. Docking assays were done for these compounds over the GABA-AT enzyme models where 19a showed a strong interaction with both GABA-AT enzymes.

Cytotoxicity, Oxidative Stress, Cell Cycle Arrest, and Mitochondrial Apoptosis after Combined Treatment of Hepatocarcinoma Cells with Maleic Anhydride Derivatives and Quercetin.

The inflammatory condition of malignant tumors continually exposes cancer cells to reactive oxygen species, an oxidizing condition that leads to the activation of the antioxidant defense system. A similar activation occurs with glutathione production. This oxidant condition enables tumor cells to maintain the energy required for growth, proliferation, and evasion of cell death. The objective of the present study was to determine the effect on hepatocellular carcinoma cells of a combination treatment with maleic anhydride derivatives (prooxidants) and quercetin (an antioxidant). The results show that the combination of a prooxidant/antioxidant had a cytotoxic effect on HuH7 and HepG2 liver cancer cells, but not on either of two normal human epithelial cell lines or on primary hepatocytes. The combination treatment triggered apoptosis in hepatocellular carcinoma cells by activating the intrinsic pathway and causing S phase arrest during cell cycle progression. There is also clear evidence of a modification in cytoskeletal actin and nucleus morphology at 24 and 48 h posttreatment. Thus, the current data suggest that the combination of two anticarcinogenic drugs, a prooxidant followed by an antioxidant, can be further explored for antitumor potential as a new treatment strategy.

Clinical implications of recent insights into the structural biology of beta2 adrenoceptors.

Analysis of the crystal structure of beta-2 adrenoceptors (ß2ARs) is providing new insights into the functioning of this receptor and perhaps of G-protein coupled receptors (GPCRs) as a whole. This class of receptors represents the target of at least a third of the drugs on the market and plays an essential role in the study of therapetic drug-response. Among GPCRs, the ß2AR is the best understood in terms of function, expression and activation. Regarding the interaction of ß2ARs with a specific ligand, polymorphisms, conformational changes and stereoselectivity are important factors. Agonist affinity for ß2ARs is influenced by the polymorphisms of these receptors, which in some cases appear to affect susceptibility to disorders. Conformational changes that take place upon the approach of a given ligand, as well as the stereoselectivity of this class of receptors can modify the intrinsic activity of ß2ARs (and certainly of other receptors as well). Hence, a deepening understanding of these factors can provide new data on affinity and specifically the key residues involved in recognition of ß2AR agonists. The deepening the understanding of the factors involved in ligand affinity for ß2ARs will assist in the development of ß2AR agonists that are more selective and potent, and that have longer term action. Not only are ß2AR agonists employed as therapeutic agents, but also in diagnosis. Currently, the main clinical application of targeting human ß2ARs is to treat asthma with bronchodilators. However, they are also used to treat other maladies in their acute or chronic forms, including heart conditions, metabolic disorders and muscle wasting. This review shows the scope and the possible future clinical implications of data from structures of ß2ARs.

Pharmacokinetic parameters and a theoretical study about metabolism of BR-AEA (a salbutamol derivative) in rabbit.

In this study, we report the pharmacokinetics of 1-(4-di-hydroxy-3,5-dioxa-4-borabicyclo[4.4.0]deca-7,9,11- trien-9-yl)-2-(tert-butylamino)ethanol (BR-AEA). This compound was identified as a more potent beta(2) adrenoceptor (beta(2)AR) agonist than salbutamol. A sensitive and reproducible high-performance liquid chromatography (HPLC) method was used for determining the time-dependent BR-AEA concentration in healthy rabbit plasma. The pharmacokinetic parameters obtained are explained in relation to the compound's metabolism by sulfotransferases. For this purpose, docking simulations were carried out on SULT1A3, SULT1C1, and SULT1A1 3-D models using the Autodock 3.0.5 program. According to the HPLC results, t(1/2) = 2.36 +/- 0.18 h and K(e) = 0.32 +/- 0.02 h(-1) for BR-AEA in rabbit plasma. Thus, BR-AEA has a greater half-life compared with salbutamol (t(1/2) = 0.66 +/- 0.08 h). This could be due to the protection that the boronic acid moiety of BR-AEA offers to the hydroxyl groups that would otherwise be susceptible to sulfation when exposed inside the active site of the sulfotransferase. This could be due to the fact that BR-AEA has a high affinity for the side-chain hydroxyl groups of Ser and Tyr residues of the enzymes, which are located outside the active site.

["De Morbis Artificum Diatriba." 1700-2000. ]. / De Morbis Artificum Diatriba 1700-2000.

Bernardino Ramazzini was a renowned physician and a prolific writer, born in Capri in 1633. He is considered the father of occupational medicine for having written the first paper on workers' diseases (De morbis artificum diatriba). His Treaty on Workers' diseases included 53 different professions, one particular and specific method of analysis, and a methodological proposal to prevent these diseases. This essay supports the approach taken by the father of occupational medicine and confirms that the principles established in his work are applicable to this day. A fair tribute is paid to the man and his writings in the third century after their publication. The English version of this paper is available at: http://www.insp.mx/salud/index.html.

De Morbis Artificum Diatriba 1700-2000 / De Morbis Artificum Diatriba 1700-2000

Bernardino Ramazzini was a renowned physician and a prolific writer, born in Capri in 1633. He is considered the father of occupational medicine for having written the first paper on workers' diseases (De morbis artificum diatriba). His Treaty on Workers' diseases included 53 different professions, one particular and specific method of analysis, and a methodological proposal to prevent these diseases. This essay supports the approach taken by the father of occupational medicine and confirms that the principles established in his work are applicable to this day. A fair tribute is paid to the man and his writings in the third century after their publication.

Toxicidad y efecto hipotensor de oxoborolidinona de L-arginina y su modulación por azul de metileno. Comparación con L-arginina, nitrito y nitrato / Toxicity and hypotensor effect of Oxoborolidinona of L-arginine and its modulation by methylene blue as compared to L-arginine

El óxido nítrico es sintetizado a partir de L-arginina, reacción catalizada por la enzima óxido nítrico sintasa, esta molécula de vida efímera participa en varios procesos como: regulación de presión arterial, citotoxicidad y comunicación celular. Un gran número de sus acciones son inhibidas por azul de metileno, inhibidor de la guanilato ciclasa. Moléculas análogas a la L-arginina con grupo guanidino libre, pueden funcionar como aportadores de óxidos de nitrógeno y tener acciones semejantes al óxido nítrico. En este trabajo se reporta el efecto hipotensor y toxicidad aguda de oxoborolidinona de L-arginina comparativamente con L-arginina, nitrito y nitrato, y su modulación con azul de metileno. La dosis letal media, en rata Wistar, para oxoborolidinona fue 169.0 ñ 5 mg kg-1 vía intraperitoneal y la dosis hipotensora media 10 hmoles kg-1 vía femoral; ambos parámetros fueron desplazados claramente a la derecha por el pretratamiento con azul de metileno, juzgado por las dosis letal y dosis efectiva medias, la oxoborolidinona tuvo un efecto más potente que la L-arginina y nitrato pero semejante a nitrito. En todos los casos, excepto para nitrato, los efectos fueron modulados por azul de metileno, lo que sugiere que los efectos estudiados son mediados vía óxidos de nitrógeno.