Two of the most well-known genetic mechanisms in mammalian cells which control the susceptibility of cells to productive infection by retroviruses and lentiviruses rely on the cellular Fv1 and Ref1 restriction factors, which act, after viral entry, to prevent productive infection through their interactions with viral capsid (CA) sequences. While previous studies of Fv1 restriction involving N- and B-tropic murine leukemia viruses (MLVs) had demonstrated that the identity of a single amino acid residue at CA110 (arginine vs. glutamic acid) determines whether the resulting virus is N (arg) or B-tropic (glu), analogous studies of dual-tropic MLVs, such as Moloney MLV (Mo-MLV), have shown that additional residues other than CA110 are also involved in the specification of dual-tropic host range. Here we have further studied the CA determinants of Mo-MLV host range, with an emphasis on identifying additional CA residues and unique combinations of CA residues which differentially influence the ability of the resulting virus to infect murine and human cells. First, we show that CA82, a residue previously identified to affect the pattern of Fv1 restriction of different MLV viruses in murine cells, is a particularly strong potentiator of B-tropism in an Mo-MLV background carrying a glutamic acid residue at CA110 (A110E substitution), and that interestingly, different residues at CA82 lead to distinct patterns of restriction in human but not in murine cells. We also identify another CA residue, CA214, as a similarly potent potentiator of B-tropism, in the context of the A110E substitution. While another substitution at CA110, A110R, leads to strong potentiation of N-tropism in murine cells, in the absence of additional mutations, we found that A110R alone was not sufficient to confer appreciable restriction in Ref1-expressing cells, despite the fact that authentic N-MLV shows strong restriction in those cells. In conjunction with the A110R substitution, substitutions at CA82, but not at CA214, do lead to significant restriction in human cells, thus demonstrating a distinction between the interactions between those two determinants of restriction and CA110. Finally, using cell lines engineered to express the TRIM5alpha(hu) gene product, recently identified as the Ref1 restriction factor, and RNAi technology to knock-down expression of TRIM5alpha(hu) in human cells, we directly demonstrate that the unique patterns of restriction observed in human cells with the different mutants are consistent with a TRIM5alpha(hu)-mediated restriction. These studies shed further light on the complex determinants within the viral CA gene product which control the susceptibility of murine and human cells to retroviral infection.
To assess the utility of online patient self-report outcomes in a rare disease, we attempted to observe the effects of corticosteroids in delaying age at fulltime wheelchair use in Duchenne muscular dystrophy (DMD) using data from 1,057 males from DuchenneConnect, an online registry. Data collected were compared to prior natural history data in regard to age at diagnosis, mutation spectrum, and age at loss of ambulation. Because registrants reported differences in steroid and other medication usage, as well as age and ambulation status, we could explore these data for correlations with age at loss of ambulation. Using multivariate analysis, current steroid usage was the most significant and largest independent predictor of improved wheelchair-free survival. Thus, these online self-report data were sufficient to retrospectively observe that current steroid use by patients with DMD is associated with a delay in loss of ambulation. Comparing commonly used steroid drugs, deflazacort prolonged ambulation longer than prednisone (median 14 years and 13 years, respectively). Further, use of Vitamin D and Coenzyme Q10, insurance status, and age at diagnosis after 4 years were also significant, but smaller, independent predictors of longer wheelchair-free survival. Nine other common supplements were also individually tested but had lower study power. This study demonstrates the utility of DuchenneConnect data to observe therapeutic differences, and highlights needs for improvement in quality and quantity of patient-report data, which may allow exploration of drug/therapeutic practice combinations impractical to study in clinical trial settings.
To assess the utility of online patient self-report outcomes in a rare disease, we attempted to observe the effects of corticosteroids in delaying age at fulltime wheelchair use in Duchenne muscular dystrophy (DMD) using data from 1,057 males from DuchenneConnect, an online registry. Data collected were compared to prior natural history data in regard to age at diagnosis, mutation spectrum, and age at loss of ambulation. Because registrants reported differences in steroid and other medication usage, as well as age and ambulation status, we could explore these data for correlations with age at loss of ambulation. Using multivariate analysis, current steroid usage was the most significant and largest independent predictor of improved wheelchair-free survival. Thus, these online self-report data were sufficient to retrospectively observe that current steroid use by patients with DMD is associated with a delay in loss of ambulation. Comparing commonly used steroid drugs, deflazacort prolonged ambulation longer than prednisone (median 14 years and 13 years, respectively). Further, use of Vitamin D and Coenzyme Q10, insurance status, and age at diagnosis after 4 years were also significant, but smaller, independent predictors of longer wheelchair-free survival. Nine other common supplements were also individually tested but had lower study power. This study demonstrates the utility of DuchenneConnect data to observe therapeutic differences, and highlights needs for improvement in quality and quantity of patient-report data, which may allow exploration of drug/therapeutic practice combinations impractical to study in clinical trial settings. Further, with the low barrier to participation, we anticipate substantial growth in the dataset in the coming years.
Summary Repurposing of existing antiviral drugs, immunological modulators, and supportive therapies represents a promising path toward rapidly developing new control strategies to mitigate the devastating public health consequences of the COVID‐19 pandemic. A comprehensive text‐mining and manual curation approach was used to comb and summarize the most pertinent information from existing clinical trials and previous efforts to develop therapies against related betacoronaviruses, particularly SARS and MERS. In contrast to drugs in current trials, which have been derived overwhelmingly from studies on taxonomically unrelated RNA viruses, a number of untested small molecule antivirals had previously demonstrated remarkable in vitro specificity for SARS‐CoV or MERS‐CoV, with high selectivity indices, EC 50 , and/or IC 50 . Due to the rapid containment of the prior epidemics, however, these were generally not followed up with in vivo animal studies or clinical investigations, and thus largely overlooked as treatment prospects in the current COVID‐19 trials. This brief review summarizes and tabulates core information on recent or ongoing drug repurposing‐focused clinical trials, while detailing the most promising untested candidates with prior documented success against the etiologic agents of SARS and/or MERS.
Acinetobacter is an uncommon cause of serious infection in healthy individuals. Here we describe a case of Acinetobacter bacteremia in a 5-year-old kidney transplant patient following a hamster bite. Although most Acinetobacter infections occur following soil contamination of wounds, the organism is a natural constituent of oral flora in many animals, and can thus pose a risk to immunocompromised pet owners. Systemic Acinetobacter infection should therefore be considered in the differential diagnosis of febrile infections in immunocompromised children who are exposed to pets.
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