Monitoring monkeypox virus in saliva and air samples in Spain: a cross-sectional study

Background: The transmission of monkeypox virus occurs through direct contact, but transmission through saliva or exhaled droplets and aerosols has not yet been investigated. We aimed to assess the presence of monkeypox virus DNA and infectious virus in saliva samples and droplets and aerosols exhaled from patients infected with monkeypox virus. Methods: We did a cross-sectional study in patients with monkeypox confirmed by PCR who attended two health centres in Madrid, Spain. For each patient, we collected samples of saliva, exhaled droplets within a mask, and aerosols captured by air filtration through newly developed nanofiber filters. We evaluated the presence of monkeypox virus in the samples by viral DNA detection by quantitative PCR (qPCR) and isolation of infectious viruses in cell cultures. Findings: Between May 18 and July 15, 2022, 44 patients with symptomatic monkeypox attended two health centres in Madrid and were included in the study. All were cisgender men, with a median age of 35·0 years (IQR 11·3). We identified high loads of monkeypox virus DNA by qPCR in 35 (85%) of 41 saliva samples. Infectious monkeypox virus was recovered from 22 (67%) of 33 saliva samples positive for monkeypox virus DNA. We also found a significant association between the number of affected cutaneous areas or general symptoms and the viral load present in saliva samples. Droplets exhaled from patients with monkeypox, detected inside a mask, contained monkeypox virus DNA in 32 (71%) of 45 samples, with two of the 32 positive samples showing the presence of the infectious virus. Monkeypox virus DNA in aerosols, collected from the medical consultation room, were detected in 27 (64%) of 42 samples, despite patients wearing an FFP2 mask during the visit. Infectious virus was not recovered from aerosol samples. High levels of monkeypox virus DNA were identified in aerosols collected from a hospital isolation room housing a patient with monkeypox. Interpretation: The identification of high viable monkeypox virus loads in saliva in most patients with monkeypox and the finding of monkeypox virus DNA in droplets and aerosols warrants further epidemiological studies to evaluate the potential relevance of the respiratory route of infection in the 2022 monkeypox virus outbreak.This study was funded by the EU (Nextgeneration EU), Consejo Superior de Investigaciones Científicas (PTI Salud Global), and Ciberinfec (Acción estratégica MKPXV22). We thank Milagros Guerra and the Electron Microscopy Service at CBMSO for their support. We thank the contribution of Grupo Viruela Simio Madrid ISCIII/HCSC/Sandoval.S

T cells with dysfunctional mitochondria induce multimorbidity and premature senescence

The effect of immunometabolism on age-associated diseases remains uncertain. In this work, we show that T cells with dysfunctional mitochondria owing to mitochondrial transcription factor A (TFAM) deficiency act as accelerators of senescence. In mice, these cells instigate multiple aging-related features, including metabolic, cognitive, physical, and cardiovascular alterations, which together result in premature death. T cell metabolic failure induces the accumulation of circulating cytokines, which resembles the chronic inflammation that is characteristic of aging (“inflammaging”). This cytokine storm itself acts as a systemic inducer of senescence. Blocking tumor necrosis factor-a signaling or preventing senescence with nicotinamide adenine dinucleotide precursors partially rescues premature aging in mice with Tfam-deficient T cells. Thus, T cells can regulate organismal fitness and life span, which highlights the importance of tight immunometabolic control in both aging and the onset of age-associated diseases.This study was supported by the Fondo de Investigación Sanitaria del Instituto de Salud Carlos III (PI16/02188 and PI19/00855; and PI16/02110 to B.I.), the European Regional Development Fund (ERDF), and the European Commission through H2020-EU.1.1 and European Research Council grant ERC-2016-StG 715322-EndoMitTalk. This work was partially supported by Comunidad de Madrid (S2017/BMD-3867 RENIM-CM). M.M. is supported by the Miguel Servet Program (CPII 19/00014). G.S.-H. is supported by FPI-UAM, J.O. (FJCI-2017-33855) and E.G.-R. (IJC2018-036850) by Juan de la Cierva, and E.C. by Atracción de Talento Investigador 2017-T2/BMD-5766 (Comunidad de Madrid and UAM). B.I. was supported by ERC research grant ERC-2018-CoG 819775-MATRIX

A179L, a viral Bcl-2 homologue, targets the core Bcl-2 apoptotic machinery and its upstream BH3 activators with selective binding restrictions for Bid and Noxa

Several large DNA viruses encode Bcl-2 protein homologues involved in the regulation of the cellular apoptosis cascade. This regulation often involves the interaction of these viral proteins with diverse cellular Bcl-2 family members. We have identified the specific interactions of A179L, an African swine fever virus (ASFV) Bcl-2 homologue, with the active forms of the porcine BH3-only Bid protein (truncated Bid p13 and p15). Transient expression of ASFV A179L gene in Vero cells prevented apoptosis induced by these active forms of Bid protein. Interestingly, A179L protein was able to interact, also with the main core Bcl-2 proapoptotic proteins Bax and Bak, and with several BH3-only proteins with selective binding restrictions for full length Bid and Noxa. These results suggest a fine regulation for A179L action in the suppression of apoptosis in infected cells which is essential for efficient virus replication

T cells with dysfunctional mitochondria induce multimorbidity and premature senescence.

This study was supported by the Fondo de Investigación Sanitaria del Instituto de Salud Carlos III (PI16/188, PI19/855, as well as PI16/02110 to B.I.), the European Regional Development Fund (ERDF), and the European Commission through H2020-EU.1.1 and European Research Council grant ERC-2016-StG 715322-EndoMitTalk. This work was partially supported by Comunidad de Madrid (S2017/BMD-3867 RENIM-CM). M.M. is supported by the Miguel Servet Program (CP 19/014). G.S.-H. is supported by FPI-UAM, J.O (FJCI-2017-33855) and E.G-R (IJC2018-036850) by Juan de la Cierva, and E.C. by Atracción de Talento Investigador 2017-T2/BMD-5766 (Comunidad de Madrid and UAM). B.I. was supported by ERC research grant ERC-2018-CoG 819775-MATRIX.The effect of immunometabolism on age-associated diseases remains uncertain. In this work, we show that T cells with dysfunctional mitochondria owing to mitochondrial transcription factor A (TFAM) deficiency act as accelerators of senescence. In mice, these cells instigate multiple aging-related features, including metabolic, cognitive, physical, and cardiovascular alterations, which together result in premature death. T cell metabolic failure induces the accumulation of circulating cytokines, which resembles the chronic inflammation that is characteristic of aging ("inflammaging"). This cytokine storm itself acts as a systemic inducer of senescence. Blocking tumor necrosis factor-α signaling or preventing senescence with nicotinamide adenine dinucleotide precursors partially rescues premature aging in mice with Tfam-deficient T cells. Thus, T cells can regulate organismal fitness and life span, which highlights the importance of tight immunometabolic control in both aging and the onset of age-associated diseases.S

African swine fever virus protein p30 interaction with heterogeneous nuclear ribonucleoprotein K (hnRNP-K) during infection

AbstractHeterogeneous nuclear ribonucleoprotein K (hnRNP-K) was identified as interacting cellular protein with the abundant immediate early protein p30 from African swine fever virus (ASFV) in a macrophage cDNA library screening. The interacting regions of hnRNP-K with p30 were established within residues 35–197, which represent KH1 and KH2 domains responsible for RNA binding. Colocalization of hnRNP-K and p30 was observed mainly in the nucleus, but not in the cytoplasm of infected cells and infection modified hnRNP-K subcellular distribution and decreased the incorporation of 5-fluorouridine into nascent RNA. Since similar effects were observed in cells transiently expressing p30, this interaction provides new insights into p30 function and could represent a possible additional mechanism by which ASFV downregulates host cell mRNA translation.Structured summaryMINT-6742660:hnRNP-K (uniprotkb:P61978) physically interacts (MI:0218)with p30 (uniprotkb:Q8V1E7) by pull down (MI:0096)MINT-6742673, MINT-6742696, MINT-6742729:hnRNP-K (uniprotkb:P61978) physically interacts (MI:0218)with p30 (uniprotkb:Q8V1E7) by two hybrid (MI:0018)MINT-6742711:p30 (uniprotkb:Q8V1E7) and hnRNP-K (uniprotkb:P61978) colocalize (MI:0403) by fluorescence microscopy (MI:0416

T cells with dysfunctional mitochondria induce multimorbidity and premature senescence

This study was supported by the Fondo de Investigación Sanitaria del Instituto de Salud Carlos III (PI16/02188 and PI19/00855; and PI16/02110 to B.I.), the European Regional Development Fund (ERDF), and the European Commission through H2020-EU.1.1 and European Research Council grant ERC-2016-StG 715322-EndoMitTalk. This work was partially supported by Comunidad de Madrid (S2017/BMD-3867 RENIM-CM). M.M. is supported by the Miguel Servet Program (CPII 19/00014). G.S.-H. is supported by FPI-UAM, J.O. (FJCI-2017-33855) and E.G.-R. (IJC2018-036850) by Juan de la Cierva, and E.C. by Atracción de Talento Investigador 2017-T2/BMD-5766 (Comunidad de Madrid and UAM). B.I. was supported by ERC research grant ERC-2018-CoG 819775-MATRIX.The effect of immunometabolism on age-associated diseases remains uncertain. In this work, we show that T cells with dysfunctional mitochondria owing to mitochondrial transcription factor A (TFAM) deficiency act as accelerators of senescence. In mice, these cells instigate multiple aging-related features, including metabolic, cognitive, physical, and cardiovascular alterations, which together result in premature death. T cell metabolic failure induces the accumulation of circulating cytokines, which resembles the chronic inflammation that is characteristic of aging (“inflammaging”). This cytokine storm itself acts as a systemic inducer of senescence. Blocking tumor necrosis factor–α signaling or preventing senescence with nicotinamide adenine dinucleotide precursors partially rescues premature aging in mice with Tfam-deficient T cells. Thus, T cells can regulate organismal fitness and life span, which highlights the importance of tight immunometabolic control in both aging and the onset of age-associated diseases.Depto. de Genética, Fisiología y MicrobiologíaFac. de Ciencias BiológicasTRUEpu