Mariana Freire Campos scite author profile

ACE2 and TMPRSS2 are key players on SARS-CoV-2 entry into host cells. However, it is still unclear whether expression levels of these factors could reflect disease severity. Here, a case–control study was conducted with 213 SARS-CoV-2 positive individuals where cases were defined as COVID-19 patients with respiratory distress requiring oxygen support (N = 38) and controls were those with mild to moderate symptoms of the disease who did not need oxygen therapy along the entire clinical course (N = 175). ACE2 and TMPRSS2 mRNA levels were evaluated in nasopharyngeal swab samples by RT-qPCR and logistic regression analyzes were applied to estimate associations with respiratory outcomes. ACE2 and TMPRSS2 levels positively correlated with age, which was also strongly associated with respiratory distress. Increased nasopharyngeal ACE2 levels showed a protective effect against this outcome (adjOR = 0.30; 95% CI 0.09–0.91), while TMPRSS2/ACE2 ratio was associated with risk (adjOR = 4.28; 95% CI 1.36–13.48). On stepwise regression, TMPRSS2/ACE2 ratio outperformed ACE2 to model COVID-19 severity. When nasopharyngeal swabs were compared to bronchoalveolar lavages in an independent cohort of COVID-19 patients under mechanical ventilation, similar expression levels of these genes were observed. These data suggest nasopharyngeal TMPRSS2/ACE2 as a promising candidate for further prediction models on COVID-19.

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Amazonian Siparuna extracts as potential anti-influenza agents: Metabolic fingerprinting

Leal

Simas

Miranda

et al. 2021

Journal of Ethnopharmacology

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Anti-SARS-CoV-2 Activity of Ampelozizyphus amazonicus (Saracura-Mirá): Focus on the Modulation of the Spike-ACE2 Interaction by Chemically Characterized Bark Extracts by LC-DAD-APCI-MS/MS

et al. 2023

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Traditional medicine shows several treatment protocols for COVID-19 based on natural products, revealing its potential as a possible source of anti-SARS-CoV-2 agents. Ampelozizyphus amazonicus is popularly used in the Brazilian Amazon as a fortifier and tonic, and recently, it has been reported to relieve COVID-19 symptoms. This work aimed to investigate the antiviral potential of A. amazonicus, focusing on the inhibition of spike and ACE2 receptor interaction, a key step in successful infection. Although saponins are the major compounds of this plant and often reported as its active principles, a polyphenol-rich extract was the best inhibitor of the spike and ACE2 interaction. Chemical characterization of A. amazonicus bark extracts by LC-DAD-APCI-MS/MS before and after clean-up steps for polyphenol removal showed that the latter play an essential role in maintaining this activity. The effects of the extracts on viral replication were also assessed, and all samples (aqueous and ethanol extracts) demonstrated in vitro activity, inhibiting viral titers in the supernatant of Calu-3 cells after 24 hpi. By acting both in the SARS-CoV-2 cell entry process and its replication, A. amazonicus bark extracts stand out as a multitarget agent, highlighting the species as a promising candidate in the development of anti-SARS-CoV-2 drugs.

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Ziziphus joazeiro, a Saponin-Rich Brazilian Medicinal Plant: Pharmacognostic Characterization of Bark and Leaves

Nascimento

Fonseca

Campos

et al. 2020

Rev. Bras. Farmacogn.

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Ziziphus joazeiro Mart., Rhamnaceae, is a plant native to northeast Brazil where it is known as "juazeiro." Its bark, rich in saponins, is widely utilized in folk medicine and as a supply to produce cosmetics. Aiming at the preservation of the species and the search for an alternative vegetal raw material, the phytochemical profiles of bark and leaves were compared by chemical techniques. The foaming index and gravimetric studies indicated that, in general, bark values were approximately twice than those of the leaves. The same occurred with the hemolysis indexes. Extracts were dereplicated by liquid chromatography with diode array detection coupled to mass spectrometry analyses using an atmospheric pressure chemical ionization source, which indicated that at least 5 saponins were common to all bark and leaf samples. The direct infusion high-resolution mass spectrometry analyses revealed at least 44 different saponins distributed between the bark and leaves of the analyzed plant, of which 40 were described for the first time. The data showed that there were similarities between the studied plant organs as demonstrated by mass spectrometry, foaming index, and hemolysis indexes. Therefore, with the application of a suitable standardization procedure the leaves could be a promising source for obtaining "juazeiro-type" saponins.

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In silico screening of phenylethanoid glycosides, a class of pharmacologically active compounds as natural inhibitors of SARS-CoV-2 proteases

Cheohen

Esteves

Fonseca

et al. 2023

Computational and Structural Biotechnology Journal

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