New potent EV-A71 antivirals targeting capsid.

The enterovirus is a genus of single-stranded, highly diverse positive-sense RNA viruses, including Human Enterovirus A-D and Human Rhinovirus A-C species. They are responsible for numerous diseases and some infections can progress to life-threatening complications, particularly in children or immunocompromised patients. To date, there is no treatment against enteroviruses on the market, except for polioviruses (vaccine) and EV-A71 (vaccine in China). Following a decrease in enterovirus infections during and shortly after the (SARS-Cov2) lockdown, enterovirus outbreaks were once again detected, notably in young children. This reemergence highlights on the need to develop broad-spectrum treatment against enteroviruses. Over the last year, our research team has identified a new class of small-molecule inhibitors showing anti-EV activity. Targeting the well-known hydrophobic pocket in the viral capsid, these compounds show micromolar activity against EV-A71 and a high selectivity index (SI) (5h: EC50, MRC-5 = 0.57 µM, CC50, MRC-5 >20 µM, SI > 35; EC50, RD = 4.38 µM, CC50, RD > 40 µM, SI > 9; 6c: EC50, MRC-5 = 0.29 µM, CC50, MRC-5 >20 µM, SI > 69; EC50, RD = 1.66 µM, CC50, RD > 40 µM, SI > 24; Reference: Vapendavir EC50, MRC-5 = 0.36 µM, CC50, MRC-5 > 20 µM, EC50, RD = 0.53 µM, CC50, RD > 40 µM, SI > 63). The binding mode of these compounds in complex with enterovirus capsids was analyzed and showed a series of conserved interactions. Consequently, 6c and its derivatives are promising candidates for the treatment of enterovirus infections.

Recombinant Factor VIII Fc Fusion Protein (rFVIIIFc) in Real Life: One-Year Clinical and Economic Outcomes.

BACKGROUND: Recombinant factor VIII Fc fusion protein (rFVIIIFc) is the first extended half-life (EHL) recombinant clotting factor with marketing authorization; it has been available in France since October 2016. However, data and literature about rFVIIIFc in clinical practice are scarce. OBJECTIVE: We propose a 1-year clinical and economic outcome evaluation in patients with hemophilia A taking into consideration treatment adherence. PATIENTS AND METHODS: We reviewed the diaries of all patients treated with rFVIIIFc at Marseille Hemophilia Center for 1 year. All the data were related to the patients' infusion (i.e., annual number of infusions, weekly dose/kg, and annual consumption) and bleeding reports. The clotting factor costs were considered, whereas additional costs (e.g., infusion devices and nurse intervention) were neglected. RESULTS: A total of 34 patients were evaluated. Their median age was 18 years (IQR = 18). Treatment adherence was observed in 62% for FVIII and 66% for rFVIIIFc. The analysis revealed a negligible decrease in the annual clotting factor consumption following the switch (- 2%, p = 0.7339). These data were combined with a significant reduction in the annual number of infusion (- 22.5%, median = 138.5, IQR = 65.8 for FVIII; median = 105, IQR = 24 for rFVIIIFc, p < 0.0001) and bleeding (- 50%, median = 5, IQR = 7.5 for FVIII; median = 1, IQR = 4 for rFVIIIFc, p < 0.0001). With regard to the cost, a decreasing trend was observed (- 8%, p = 0.1300). CONCLUSION: The analysis in a real-life setting revealed that the input of switches toward rFVIIIFc in different treatment (age of patients and regimen) patterns seems to corroborate previous studies. The results suggest that switches have a beneficial effect in terms of efficacy, clotting factor consumption, and cost.

Efficacy and safety of plasma exchange using a double viral inactivated and prion reduced solvent/detergent fresh frozen plasma for the treatment of thrombotic microangiopathy: The first French experience in a single center.

BACKGROUND: Octaplas LG® is the first plasma with marketing authorisation, available in France only since February 2016. This is a double viral inactivated and prion reduced solvent/detergent fresh frozen plasma. Clinical data on Octaplas LG® use in thrombotic microangiopathy (TMA) remains very limited. In May 2017, we were the first hospital in France to benefit of this new plasma product now dispensed by hospital pharmacies. We present a prospective review of all therapeutic plasma exchange (TPE) procedures for TMA patients in our hospital to evaluate the new delivery circuit, the efficacy and the adverse events (AE) related to this plasma. STUDY DESIGN AND METHODS: We prospectively reviewed 166 TPE procedures where Octaplas LG® was used as replacement fluid in 15 consecutive TMA patients required TPE in our hospital from May 2017 until December 2018. RESULTS: The total replacement plasma volume administered was 763 L (3818 units) with a median on 32 L (range 6-157) per episode. Remission was achieved in all cases after a median of 7 TPE per patient's episode. No exacerbation nor relapse were noted. One patient presented a grade 1 citrate reaction, and another patient an allergic reaction. We deplored pulmonary embolism in 2 patients. CONCLUSION: In our experience OctaplasLG® was well-tolerated and was effective at inducing a full clinical remission. Although two PE were noted, the relationship to OctaplasLG® in unclear. The new dispensing circuit through the hospital pharmacy has proven to be safe and efficient.

Structure-Based Drug Design of Potent Pyrazole Derivatives against Rhinovirus Replication.

Rhinoviruses (RVs) have been linked to exacerbations of many pulmonary diseases, thus increasing morbidity and/or mortality in subjects at risk. Unfortunately, the wide variety of RV genotypes constitutes a major hindrance for the development of Rhinovirus replication inhibitors. In the current investigation, we have developed a novel series of pyrazole derivatives that potently inhibit the Rhinovirus replication. Compounds 10e and 10h behave as early stage inhibitors of Rhinovirus infection with a broad-spectrum activity against RV-A and RV-B species (EC50 < 0.1 µM). We also evaluate the dynamics of the emerging resistance of these promising compounds and their in vitro genotoxicity. Molecular docking experiments shed light on the pharmacophoric elements interacting with residues of the drug-binding pocket.

News on therapeutic management of MDR-tuberculosis: a literature review.

In 2015, the World Health Organization registered 10.4 million people who developed tuberculosis worldwide and 480,000 new cases of multidrug-resistant tuberculosis were identified. The care of multi and extensively drug-resistant tuberculosis is based on a combination of pyrazinamide and second-line drugs. These regimens are lengthy, partially effective and poorly tolerated. The challenge is to re-evaluate the use of existing molecules and to develop new agents more effective against resistant strains with shorter treatment duration. This literature review gives an overview of the latest research addressing these therapeutic objectives. Some molecules are in late stage clinical development among which pretomanid is showing promising results. Bedaquiline and delamanid have been recently approved by the Food and Drug Administration. The efficacy of drug regimens combining these molecules is under evaluation.

Heterocyclic pharmacochemistry of new rhinovirus antiviral agents: A combined computational and experimental study.

Rhinovirus (RV), member of the Enterovirus genus, is known to be involved in more than half of the common colds. Through advances in molecular biology, rhinoviruses have also been associated with exacerbations of chronic pulmonary diseases (e.g. asthma, chronic obstructive pulmonary disease (COPD) and cystic fibrosis). In the current investigation, we develop a novel series of 4,5-dimethoxybenzyl derivatives that potently inhibits rhinovirus replication. Compound (S)-7f blocks RV-B14 replication with an EC50 value of 0.25 µM and shows a low toxicity in HeLa cells (CC50 > 271 µM). Enantioseparation followed by an absolute configuration determination by a Mosher's method revealed the interest of enantiopure compounds. Molecular docking studies permitted the identification of key biological interactions within the drug-binding pocket and an in silico drug-like study revealed a good potential for the development of these derivatives.

Misuse of antibiotics reserved for hospital settings in outpatients: a prospective clinical audit in a university hospital in Southern France.

Some antibiotics are reserved essentially for hospital settings owing to cost effectiveness and in order to fight the emerging antibiotic resistance crisis. In some cases, antibiotics reserved exclusively for use in hospitals may be prescribed in outpatients for serious infections or in the absence of a therapeutic alternative. A 30-day prospective audit of outpatient prescriptions of antibiotics reserved exclusively for use in hospitals was performed. The objective of this study was to evaluate the relevance of outpatient antibiotic prescriptions by measuring appropriateness according to guidelines. During the study period, 53 prescriptions were included, only 40% of which were appropriate. Among the 32 inappropriate prescriptions, 4 cases lacked microbial arguments, 1 case was not adequate for the infection type, 1 case involved an incorrect antibiotic dosage, 1 case involved an incorrect interval of dose administration, 3 cases had a therapeutic alternative and 22 cases were not recommended. Of the 53 prescriptions, 66% were started in hospital and 34% in outpatients. Only 25% of cases were prescribed with infectious diseases specialist (IDS) advice, 64% were based on microbiological documentation and 13% had a negative bacterial culture. Inappropriate prescriptions were usually observed in antibiotic lock therapy, skin infections, Clostridium difficile colitis, intra-abdominal infections and intravascular catheter-related infections. Outpatient prescriptions of antimicrobial drugs reserved exclusively for use in hospitals are frequently inappropriate. We recommend a real-time analysis algorithm with the involvement of an IDS for monitoring prescriptions to improve the quality of these prescriptions and possibly to prevent antibiotic resistance.

VP1 crystal structure-guided exploration and optimization of 4,5-dimethoxybenzene-based inhibitors of rhinovirus 14 infection.

Human rhinoviruses (HRV) are the predominant cause of common colds and flu-like illnesses, but are also responsible for virus-induced exacerbations of asthma and chronic obstructive pulmonary disease. However, to date, no drug has been approved yet for clinical use. In this study, we present the results of the structure-based lead optimization of a class of new small-molecule inhibitors that we previously reported to bind into the pocket beneath the canyon of the VP1 protein. A small series of analogues that we designed based on the available structure and interaction data were synthesized and evaluated for their potency to inhibit the replication of HRV serotype 14. 2-(4,5-Dimethoxy-2-nitrophenyl)-1-(4-(pyridin-4-yl)phenyl)ethanol (3v) was found to be a potent inhibitor exhibiting micromolar activity (EC50 = 3.4 ± 1.0 µM) with a toxicity for HeLa cells that was significantly lower than that of our previous hit (LPCRW_0005, CC50 = 104.0 ± 22.2 µM; 3v, CC50 > 263 µM).

A novel benzonitrile analogue inhibits rhinovirus replication.

OBJECTIVES: To study the characteristics and the mode of action of the anti-rhinovirus compound 4-[1-hydroxy-2-(4,5-dimethoxy-2-nitrophenyl)ethyl]benzonitrile (LPCRW_0005). METHODS: The antiviral activity of LPCRW_0005 was evaluated in a cytopathic effect reduction assay against a panel of human rhinovirus (HRV) strains. To unravel its precise molecular mechanism of action, a time-of-drug-addition study, resistance selection and thermostability assays were performed. The crystal structure of the HRV14/LPCRW_0005 complex was elucidated as well. RESULTS: LPCRW_0005 proved to be a selective inhibitor of the replication of HRV14 (EC(50) of 2 ±â€Š1 µM). Time-of-drug-addition studies revealed that LPCRW_0005 interferes with the earliest stages of virus replication. Phenotypic drug-resistant virus variants were obtained (≥30-fold decrease in susceptibility to the inhibitory effect of LPCRW_0005), which carried either an A150T or A150V amino acid substitution in the VP1 capsid protein. The link between the mutant genotype and drug-resistant phenotype was confirmed by reverse genetics. Cross-resistance studies and thermostability assays revealed that LPCRW_0005 has a similar mechanism of action to the capsid binder pleconaril. Elucidation of the crystal structure of the HRV14/LPCRW_0005 complex revealed the existence of multiple hydrophobic and polar interactions between the VP1 pocket and LPCRW_0005. CONCLUSIONS: LPCRW_0005 is a novel inhibitor of HRV14 replication that acts as a capsid binder. The compound has a chemical structure that is markedly smaller than that of other capsid binders. Structural studies show that LPCRW_0005, in contrast to pleconaril, leaves the toe end of the pocket in VP1 empty. This suggests that extended analogues of LPCRW_0005 that fill the full cavity could be more potent inhibitors of rhinovirus replication.

[mediEVAL: a new evaluating tool for the medication-use system]. / mediEVAL : un nouvel outil d'évaluation de la prise en charge médicamenteuse.

PURPOSES: A new methodology to evaluate the medication-use system based on a risk cartography tool, has been developed. This work has been promoted by the Observatoire du médicament et des dispositifs médicaux stériles et de l'innovation thérapeutique (OMEDIT) from Provence-Alpes-Côte d'Azur (PACA)-Corse regions. METHODS: This new methodology has been developed with Excel (Microsoft(®)) and has led to the mediEVAL tool. It consists in two categories of Excel files: evaluating Excel files (1 for each job of the medication-use system) and synthesis Excel files which allow to compile a group of evaluating files for a defined area (department, hospital…). RESULTS AND CONCLUSION: mediEVAL is a new tool to evaluate quality and risk management of the entire medication-use system which has to be used by private or public hospitals of PACA and Corsica areas in their appropriate medication-use contract. Then, the OMEDIT can get data to provide an inventory of fixtures of the PACA-Corse area medication-use system situation.

Synthesis, biological activity and structure-activity relationship of 4,5-dimethoxybenzene derivatives inhibitor of rhinovirus 14 infection.

Human rhinoviruses are a common cause of respiratory infections, and thus constitute an important target for medicinal chemistry. Still, no drug has been approved for clinical use. We report herein the discovery of dibenzenic derivatives with potent and specific in vitro anti-rhinoviral 14 activity. A total of 99 structural analogues were synthesized by an original synthesis method, i.e. through one organic agent Tetrakis(DimethylAmino)Ethylene (TDAE) and a structure-activity relationship was established. It was shown that 4,5-dimethoxy scaffold and the presence of a C-4 substituted aromatic moiety were necessary to the in vitro activity of these original agents. However, modifications on liker were not convincing. The benzonitrile derivative 23 was identified as the most potent and selective inhibitor of rhinovirus replication in these series (EC50 of 2 ± 0.5 µM, CC50 of 184 µM, selectivity index of 92).

Original TDAE strategy using propargylic chloride: rapid access to 1,4-diarylbut-3-ynol derivatives.

We report herein the first synthesis of propargylic alcohols using an organic reducing agent. Diarylbutynol derivatives are formed in moderate to good yields under mild conditions from the reaction of 1-(3-chloroprop-1-ynyl)-4-nitrobenzene with various aromatic aldehydes using tetrakis(dimethylamino)ethylene (TDAE) as reductant.