Miguel Pinto scite author profile

The largest monkeypox virus (MPXV) outbreak described so far in non-endemic countries was identified in May 2022 (refs. 1–6). In this study, shotgun metagenomics allowed the rapid reconstruction and phylogenomic characterization of the first MPXV outbreak genome sequences, showing that this MPXV belongs to clade 3 and that the outbreak most likely has a single origin. Although 2022 MPXV (lineage B.1) clustered with 2018–2019 cases linked to an endemic country, it segregates in a divergent phylogenetic branch, likely reflecting continuous accelerated evolution. An in-depth mutational analysis suggests the action of host APOBEC3 in viral evolution as well as signs of potential MPXV human adaptation in ongoing microevolution. Our findings also indicate that genome sequencing may provide resolution to track the spread and transmission of this presumably slow-evolving double-stranded DNA virus.

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Urgent need for a non-discriminatory and non-stigmatizing nomenclature for monkeypox virus

Happi

et al. 2022

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We propose a novel, non-discriminatory classification of monkeypox virus. Together with the World Health Organization, we named three clades (I, IIa and IIb) in order of detection. Within IIb, the cause the current global outbreak, we identified multiple lineages (A.1, A.2, A.1.1 and B.1) to support real-time genomics surveillance.Monkeypox is a disease caused by the monkeypox virus (MPXV) from the Orthopoxvirus genus in the family Poxviridae [1,2]. Since the first report of monkeypox virus infection in humans in the 1970s [3], repeated outbreaks have been reported periodically in Western and

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Genome-scale analysis of the non-cultivable Treponema pallidum reveals extensive within-patient genetic variation

et al. 2016

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Insights into the genomic adaptive traits of Treponema pallidum, the causative bacterium of syphilis, have long been hampered due to the absence of in vitro culture models and the constraints associated with its propagation in rabbits. Here, we have bypassed the culture bottleneck by means of a targeted strategy never applied to uncultivable bacterial human pathogens to directly capture whole-genome T. pallidum data in the context of human infection. This strategy has unveiled a scenario of discreet T. pallidum interstrain single-nucleotide-polymorphism-based microevolution, contrasting with a rampant within-patient genetic heterogeneity mainly targeting multiple phase-variable loci and a major antigen-coding gene (tprK). TprK demonstrated remarkable variability and redundancy, intra- and interpatient, suggesting ongoing parallel adaptive diversification during human infection. Some bacterial functions (for example, flagella- and chemotaxis-associated) were systematically targeted by both inter- and intrastrain single nucleotide polymorphisms, as well as by ongoing within-patient phase variation events. Finally, patient-derived genomes possess mutations targeting a penicillin-binding protein coding gene (mrcA) that had never been reported, unveiling it as a candidate target to investigate the impact on the susceptibility to penicillin. Our findings decode the major genetic mechanisms by which T. pallidum promotes immune evasion and survival, and demonstrate the exceptional power of characterizing evolving pathogen subpopulations during human infection.

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Virulence and antibiotic resistance plasticity of Arcobacter butzleri: Insights on the genomic diversity of an emerging human pathogen

Isidro

Ferreira

Pinto

et al. 2020

Infection, Genetics and Evolution

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Arcobacter butzleri is a food and waterborne bacteria and an emerging human pathogen, frequently displaying a multidrug resistant character. Still, no comprehensive genome-scale comparative analysis has been performed so far, which has limited our knowledge on A. butzleri diversification and pathogenicity. Here, we performed a deep genome analysis of A. butzleri focused on decoding its core-and pan-genome diversity and specific genetic traits underlying its pathogenic potential and diverse ecology. In total, 49 A. butzleri strains (collected from human, animal, food and environmental sources) were screened..

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Update of 156 Episodes of Central Nervous System Bleeding in Hemophiliacs

Pinto

Fernandez²,

Bianco³

1992

Pathophysiol Haemos Thromb

100

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Between 1960 and 1991, 156 episodes of central nervous system (CNS) bleeding were documented in 106 patients from a total population of 1,410 hemophiliacs (7.5%). Ninety-one hemophilia A patients presented 131 bleeding episodes; 15 hemophilia B patients had 25 episodes. 32% of these episodes took place in patients less than 5 years of age. 46 % were age 10 or less, and 72% were age 20 or less. The mean age was 14.8 years in hemophilia A and 9 years in hemophilia B patients. A significant increase in the mean age of hemophilia A patients has been observed over the last 10 years; this may be related to HIV infection. A history of recent trauma was documented in 39.7% of the episodes. Spontaneous CNS bleeding was predominant in severe hemophilia (85.2%). One hundred and fifty-four CNS bleeding episodes were intracranial and 2 intraspinal. Of the intracranial episodes, 37.7% were subarach-noid, 29.8 subdural, and 22.7% intracerebral. Factor VIII or IX inhibitors were present in 11.3% of the patients; this figure is slightly lower than that observed in our total hemophilic population. Over 50% of the patients had psychoneurological sequelae; the most frequent were seizure disorders and motor impairment. The overall mortality rate was 29.2%. The mortality was more closely related to the CNS bleeding site than to the severity of hemophilia. Treatment should be based on prompt and prolonged replacement therapy to ensure hemostatic levels of antihemophilia factors.

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Miguel Pinto

Phylogenomic characterization and signs of microevolution in the 2022 multi-country outbreak of monkeypox virus

Urgent need for a non-discriminatory and non-stigmatizing nomenclature for monkeypox virus

Genome-scale analysis of the non-cultivable Treponema pallidum reveals extensive within-patient genetic variation

Virulence and antibiotic resistance plasticity of Arcobacter butzleri: Insights on the genomic diversity of an emerging human pathogen

Update of 156 Episodes of Central Nervous System Bleeding in Hemophiliacs

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