Maurizio Zazzi scite author profile

Drug-resistant variants are frequently present in both recently and chronically infected therapy-naive patients. Drug-resistant variants are most commonly seen in patients infected with subtype B virus, probably because of longer exposure of these viruses to drugs. However, an increase in baseline resistance in non-B viruses is observed. These data argue for testing all drug-naive patients and are of relevance when guidelines for management of postexposure prophylaxis and first-line therapy are updated.

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European guidelines on the clinical management of HIV-1 tropism testing

Vandekerckhove

Wensing

Kaiser

et al. 2011

The Lancet Infectious Diseases

225

245

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Transmission of HIV Drug Resistance and the Predicted Effect on Current First-line Regimens in Europe

et al. 2015

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A novel methodology for large-scale phylogeny partition

et al. 2011

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Understanding the determinants of virus transmission is a fundamental step for effective design of screening and intervention strategies to control viral epidemics. Phylogenetic analysis can be a valid approach for the identification of transmission chains, and very-large data sets can be analysed through parallel computation. Here we propose and validate a new methodology for the partition of large-scale phylogenies and the inference of transmission clusters. This approach, on the basis of a depth-first search algorithm, conjugates the evaluation of node reliability, tree topology and patristic distance analysis. The method has been applied to identify transmission clusters of a phylogeny of 11,541 human immunodeficiency virus-1 subtype B pol gene sequences from a large Italian cohort. Molecular transmission chains were characterized by means of different clinical/demographic factors, such as the interaction between male homosexuals and male heterosexuals. Our method takes an advantage of a flexible notion of transmission cluster and can become a general framework to analyse other epidemics.

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Human DDX3 protein is a valuable target to develop broad spectrum antiviral agents

Brai

Fazi

Tintori

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

100

109

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Targeting a host factor essential for the replication of different viruses but not for the cells offers a higher genetic barrier to the development of resistance, may simplify therapy regimens for coinfections, and facilitates management of emerging viral diseases. DEADbox polypeptide 3 (DDX3) is a human host factor required for the replication of several DNA and RNA viruses, including some of the most challenging human pathogens currently circulating, such as HIV-1, Hepatitis C virus, Dengue virus, and West Nile virus. Herein, we showed for the first time, to our knowledge, that the inhibition of DDX3 by a small molecule could be successfully exploited for the development of a broad spectrum antiviral agent. In addition to the multiple antiviral activities, hit compound 16d retained full activity against drug-resistant HIV-1 strains in the absence of cellular toxicity. Pharmacokinetics and toxicity studies in rats confirmed a good safety profile and bioavailability of 16d. Thus, DDX3 is here validated as a valuable therapeutic target.broad spectrum antivirals | DDX3 | host factors | resistance | coinfections

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Tracing the HIV-1 subtype B mobility in Europe: a phylogeographic approach

et al. 2009

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SARS-CoV-2 RNA-dependent RNA polymerase as a therapeutic target for COVID-19

Vicenti

Zazzi

Saladini

2021

Expert Opinion on Therapeutic Patents

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Introduction : The current SARS-CoV-2 pandemic urgently demands for both prevention and treatment strategies. RNA-dependent RNA-polymerase (RdRp), which has no counterpart in human cells, is an excellent target for drug development. Given the time-consuming process of drug development, repurposing drugs approved for other indications or at least successfully tested in terms of safety and tolerability, is an attractive strategy to rapidly provide an effective medication for severe COVID-19 cases. Areas covered : The currently available data and upcoming studies on RdRp which can be repurposed to halt SARS-CoV-2 replication, are reviewed. Expert opinion : Drug repurposing and design of novel compounds are proceeding in parallel to provide a quick response and new specific drugs, respectively. Notably, the proofreading SARS-CoV-2 exonuclease activity could limit the potential for drugs designed as immediate chain terminators and favor the development of compounds acting through delayed termination. While vaccination is awaited to curb the SARS-CoV-2 epidemic, even partially effective drugs from repurposing strategies can be of help to treat severe cases of disease. Considering the high conservation of RdRp among coronaviruses, an improved knowledge of its activity in vitro can provide useful information for drug development or drug repurposing to combat SARS-CoV-2 as well as future pandemics.

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The Calculated Genetic Barrier for Antiretroviral Drug Resistance Substitutions Is Largely Similar for Different HIV-1 Subtypes

Vijver¹,

Wensing²,

Angarano³

et al. 2006

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Maurizio Zazzi

Prevalence of Drug‐Resistant HIV‐1 Variants in Untreated Individuals in Europe: Implications for Clinical Management

European guidelines on the clinical management of HIV-1 tropism testing

Transmission of HIV Drug Resistance and the Predicted Effect on Current First-line Regimens in Europe

A novel methodology for large-scale phylogeny partition

Human DDX3 protein is a valuable target to develop broad spectrum antiviral agents

Tracing the HIV-1 subtype B mobility in Europe: a phylogeographic approach

SARS-CoV-2 RNA-dependent RNA polymerase as a therapeutic target for COVID-19

The Calculated Genetic Barrier for Antiretroviral Drug Resistance Substitutions Is Largely Similar for Different HIV-1 Subtypes

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