Mark Pandori scite author profile

Background The degree of protective immunity conferred by infection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is currently unknown. As such, the possibility of reinfection with SARS-CoV-2 is not well understood. We describe an investigation of two instances of SARS-CoV-2 infection in the same individual.Methods A 25-year-old man who was a resident of Washoe County in the US state of Nevada presented to health authorities on two occasions with symptoms of viral infection, once at a community testing event in April, 2020, and a second time to primary care then hospital at the end of May and beginning of June, 2020. Nasopharyngeal swabs were obtained from the patient at each presentation and twice during follow-up. Nucleic acid amplification testing was done to confirm SARS-CoV-2 infection. We did next-generation sequencing of SARS-CoV-2 extracted from nasopharyngeal swabs. Sequence data were assessed by two different bioinformatic methodologies. A short tandem repeat marker was used for fragment analysis to confirm that samples from both infections came from the same individual.Findings The patient had two positive tests for SARS-CoV-2, the first on April 18, 2020, and the second on June 5, 2020, separated by two negative tests done during follow-up in May, 2020. Genomic analysis of SARS-CoV-2 showed genetically significant differences between each variant associated with each instance of infection. The second infection was symptomatically more severe than the first.Interpretation Genetic discordance of the two SARS-CoV-2 specimens was greater than could be accounted for by short-term in vivo evolution. These findings suggest that the patient was infected by SARS-CoV-2 on two separate occasions by a genetically distinct virus. Thus, previous exposure to SARS-CoV-2 might not guarantee total immunity in all cases. All individuals, whether previously diagnosed with COVID-19 or not, should take identical precautions to avoid infection with SARS-CoV-2. The implications of reinfections could be relevant for vaccine development and application.

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Interaction of HIV-1 Nef with the cellular dileucine-based sorting pathway is required for CD4 down-regulation and optimal viral infectivity

Craig¹,

Pandori²,

Guatelli³

1998

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

257

258

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The HIV-1 Nef protein is important for pathogenesis, enhances viral infectivity, and regulates the sorting of at least two cellular transmembrane proteins, CD4 and major histocompatibility complex (MHC) class I. Although several lines of evidence support the hypothesis that the Nef protein interacts directly with the cellular protein sorting machinery, the sorting signal in HIV-1 Nef has not been identified. By using a competition assay that functionally discriminates between dileucine-based and tyrosine-based sorting signals, we have categorized the motif through which Nef interacts with the sorting machinery as dileucine-based. Inspection of diverse Nef proteins from HIV-1, HIV-2, and simian immunodeficiency virus revealed a well-conserved sequence in the central region of the C-terminal, solventexposed loop of Nef (E͞DXXXL) that conforms to the consensus sequence of the dileucine-based sorting motifs found in cellular transmembrane proteins. This sequence in Nef NL4-3 , ENTSLL, functioned as an endocytosis signal when appended to the cytoplasmic tail of a heterologous protein.The leucine residues in this motif were required for the interaction of full-length Nef with the dileucine-based sorting pathway and were required for Nef-mediated down-regulation of CD4. These leucine residues were also required for optimal viral infectivity. These data indicate that a dileucine-based sorting signal in Nef is utilized to address the cellular sorting machinery. The data also suggest that an inf luence on the distribution of cellular transmembrane proteins may mechanistically unite two previously distinct properties of Nef: down-regulation of CD4 and enhancement of viral infectivity.

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Differences in HIV Burden and Immune Activation within the Gut of HIV‐Positive Patients Receiving Suppressive Antiretroviral Therapy

et al. 2010

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Background The gut is a major reservoir for HIV in patients receiving antiretroviral therapy (ART). We hypothesized that distinct immune environments within the gut may support varying levels of HIV. Methods In 8 HIV-1+ adults on ART with CD4>200 and plasma VL<40, levels of HIV and T-cell activation were measured in blood and endoscopic biopsies from the duodenum, ileum, right colon, and rectum. Results HIV DNA and RNA per CD4+T-cell were higher in all four gut sites compared to blood. HIV DNA increased from the duodenum to the rectum, while the median HIV RNA peaked in the ileum. HIV DNA correlated positively with T-cell activation in the PBMC but negatively with T-cell activation in the gut. Multiply-spliced RNA was infrequently detected in gut, and unspliced RNA/DNA ratios were lower in the colon and rectum relative to PBMC, reflecting paradoxically low HIV transcription given the higher T-cell activation in the gut. Conclusions HIV DNA and RNA are both concentrated in the gut, but the inverse relationship between HIV DNA and T-cell activation in the gut and the paradoxically low levels of HIV expression in the large bowel suggest that different processes drive HIV persistence in the blood and gut.

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Evaluation of the Cepheid Xpert MTB/RIF Assay for Direct Detection of Mycobacterium tuberculosis Complex in Respiratory Specimens

Marlowe¹,

Novak-Weekley²,

Cumpio³

et al. 2011

J Clin Microbiol

232

159

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Mark Pandori

Genomic evidence for reinfection with SARS-CoV-2: a case study

Interaction of HIV-1 Nef with the cellular dileucine-based sorting pathway is required for CD4 down-regulation and optimal viral infectivity

Differences in HIV Burden and Immune Activation within the Gut of HIV‐Positive Patients Receiving Suppressive Antiretroviral Therapy

Evaluation of the Cepheid Xpert MTB/RIF Assay for Direct Detection of Mycobacterium tuberculosis Complex in Respiratory Specimens

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