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Calpeptin is a potent cathepsin inhibitor and drug candidate for SARS-CoV-2 infections.

Reinke, Patrick Y A; de Souza, Edmarcia Elisa; Günther, Sebastian; Falke, Sven; Lieske, Julia; Ewert, Wiebke; Loboda, Jure; Herrmann, Alexander; Rahmani Mashhour, Aida; Karnicar, Katarina; Usenik, Aleksandra; Lindic, Natasa; Sekirnik, Andreja; Botosso, Viviane Fongaro; Santelli, Gláucia Maria Machado; Kapronezai, Josana; de Araújo, Marcelo Valdemir; Silva-Pereira, Taiana Tainá; Filho, Antônio Francisco de Souza; Tavares, Mariana Silva; Flórez-Álvarez, Lizdany; de Oliveira, Danielle Bruna Leal; Durigon, Edison Luiz; Giaretta, Paula Roberta; Heinemann, Marcos Bryan; Hauser, Maurice; Seychell, Brandon; Böhler, Hendrik; Rut, Wioletta; Drag, Marcin; Beck, Tobias; Cox, Russell; Chapman, Henry N; Betzel, Christian; Brehm, Wolfgang; Hinrichs, Winfried; Ebert, Gregor; Latham, Sharissa L; Guimarães, Ana Marcia de Sá; Turk, Dusan; Wrenger, Carsten; Meents, Alke.

Commun Biol ; 6(1): 1058, 2023 10 18.

Artigo em Inglês | MEDLINE | ID: mdl-37853179

RESUMO

Several drug screening campaigns identified Calpeptin as a drug candidate against SARS-CoV-2. Initially reported to target the viral main protease (Mpro), its moderate activity in Mpro inhibition assays hints at a second target. Indeed, we show that Calpeptin is an extremely potent cysteine cathepsin inhibitor, a finding additionally supported by X-ray crystallography. Cell infection assays proved Calpeptin's efficacy against SARS-CoV-2. Treatment of SARS-CoV-2-infected Golden Syrian hamsters with sulfonated Calpeptin at a dose of 1 mg/kg body weight reduces the viral load in the trachea. Despite a higher risk of side effects, an intrinsic advantage in targeting host proteins is their mutational stability in contrast to highly mutable viral targets. Here we show that the inhibition of cathepsins, a protein family of the host organism, by calpeptin is a promising approach for the treatment of SARS-CoV-2 and potentially other viral infections.

Assuntos

COVID-19 , Humanos , SARS-CoV-2/metabolismo , Catepsinas , Antivirais/farmacologia , Antivirais/uso terapêutico , Antivirais/química , Inibidores de Proteases/farmacologia , Cisteína Endopeptidases/metabolismo

SARS-CoV-2 infection impacts carbon metabolism and depends on glutamine for replication in Syrian hamster astrocytes.

de Oliveira, Lilian Gomes; de Souza Angelo, Yan; Yamamoto, Pedro; Carregari, Victor Corasolla; Crunfli, Fernanda; Reis-de-Oliveira, Guilherme; Costa, Lícia; Vendramini, Pedro Henrique; Duque, Érica Almeida; Dos Santos, Nilton Barreto; Firmino, Egidi Mayara; Paiva, Isadora Marques; Almeida, Glaucia Maria; Sebollela, Adriano; Polonio, Carolina Manganeli; Zanluqui, Nagela Ghabdan; de Oliveira, Marília Garcia; da Silva, Patrick; Davanzo, Gustavo Gastão; Ayupe, Marina Caçador; Salgado, Caio Loureiro; de Souza Filho, Antônio Francisco; de Araújo, Marcelo Valdemir; Silva-Pereira, Taiana Tainá; de Almeida Campos, Angélica Cristine; Góes, Luiz Gustavo Bentim; Dos Passos Cunha, Marielton; Caldini, Elia Garcia; D'Império Lima, Maria Regina; Fonseca, Denise Morais; de Sá Guimarães, Ana Márcia; Minoprio, Paola Camargo; Munhoz, Carolina Demarchi; Mori, Cláudia Madalena Cabrera; Moraes-Vieira, Pedro Manoel; Cunha, Thiago Mattar; Martins-de-Souza, Daniel; Peron, Jean Pierre Schatzmann.

J Neurochem ; 163(2): 113-132, 2022 10.

Artigo em Inglês | MEDLINE | ID: mdl-35880385

RESUMO

COVID-19 causes more than million deaths worldwide. Although much is understood about the immunopathogenesis of the lung disease, a lot remains to be known on the neurological impact of COVID-19. Here, we evaluated immunometabolic changes using astrocytes in vitro and dissected brain areas of SARS-CoV-2 infected Syrian hamsters. We show that SARS-CoV-2 alters proteins of carbon metabolism, glycolysis, and synaptic transmission, many of which are altered in neurological diseases. Real-time respirometry evidenced hyperactivation of glycolysis, further confirmed by metabolomics, with intense consumption of glucose, pyruvate, glutamine, and alpha ketoglutarate. Consistent with glutamine reduction, the blockade of glutaminolysis impaired viral replication and inflammatory response in vitro. SARS-CoV-2 was detected in vivo in hippocampus, cortex, and olfactory bulb of intranasally infected animals. Our data evidence an imbalance in important metabolic molecules and neurotransmitters in infected astrocytes. We suggest this may correlate with the neurological impairment observed during COVID-19, as memory loss, confusion, and cognitive impairment.

Assuntos

COVID-19 , Animais , Astrócitos , Carbono , Cricetinae , Modelos Animais de Doenças , Glucose , Glutamina , Ácidos Cetoglutáricos , Mesocricetus , Piruvatos , SARS-CoV-2

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