BackgroundFollowing mucosal human immunodeficiency virus type 1 (HIV-1) transmission, type 1 interferons (IFNs) are rapidly induced at sites of initial virus replication in the mucosa and draining lymph nodes. However, the role played by IFN-stimulated antiviral activity in restricting HIV-1 replication during the initial stages of infection is not clear. We hypothesized that if type 1 IFNs exert selective pressure on HIV-1 replication in the earliest stages of infection, the founder viruses that succeed in establishing systemic infection would be more IFN-resistant than viruses replicating during chronic infection, when type 1 IFNs are produced at much lower levels. To address this hypothesis, the relative resistance of virus isolates derived from HIV-1-infected individuals during acute and chronic infection to control by type 1 IFNs was analysed.ResultsThe replication of plasma virus isolates generated from subjects acutely infected with HIV-1 and molecularly cloned founder HIV-1 strains could be reduced but not fully suppressed by type 1 IFNs in vitro. The mean IC50 value for IFNα2 (22 U/ml) was lower than that for IFNβ (346 U/ml), although at maximally-inhibitory concentrations both IFN subtypes inhibited virus replication to similar extents. Individual virus isolates exhibited differential susceptibility to inhibition by IFNα2 and IFNβ, likely reflecting variation in resistance to differentially up-regulated IFN-stimulated genes. Virus isolates from subjects acutely infected with HIV-1 were significantly more resistant to in vitro control by IFNα than virus isolates generated from the same individuals during chronic, asymptomatic infection. Viral IFN resistance declined rapidly after the acute phase of infection: in five subjects, viruses derived from six-month consensus molecular clones were significantly more sensitive to the antiviral effects of IFNs than the corresponding founder viruses.ConclusionsThe establishment of systemic HIV-1 infection by relatively IFNα-resistant founder viruses lends strong support to the hypothesis that IFNα plays an important role in the control of HIV-1 replication during the earliest stages of infection, prior to systemic viral spread. These findings suggest that it may be possible to harness the antiviral activity of type 1 IFNs in prophylactic and potentially also therapeutic strategies to combat HIV-1 infection.
Phospholipid (PL) abnormalities are observed in the cerebrospinal fluid of patients with traumatic brain injury (TBI), suggesting their role in TBI pathology. Therefore, PL levels were examined in a TBI mouse model that received 1.8 mm deep controlled cortical impact injury or craniectomy only (control). The rotarod and Barnes maze acquisition and probe tests were performed within 2 wk after injury, with another probe test performed 3 mo postinjury. Liquid chromatography/mass spectrometry analyses were performed on lipid extracts from several brain regions and plasma from injured and control mice collected at 3 mo postinjury. Compared to controls, injured mice with sensorimotor and learning deficits had decreased levels of cortical and cerebellar phosphatidylcholine (PC) and phosphatidylethanolamine (PE) levels, while hippocampal PC, sphingomyelin and PE levels were elevated. Ether PE levels were lower in the cortices and plasma of injured animals. Polyunsaturated fatty acid-containing PC and PE species, particularly ratios of docosahexaenoic acid (DHA) to arachidonic acid, were lower in the hippocampi and cortices and plasma of injured mice. Given the importance of DHA in maintaining neuronal function and resolving inflammation and of peroxisomes in synthesis of ether PLs, normalizing these PLs may be a useful strategy for treating the chronic pathology of TBI.-Abdullah, L., Evans, J. E., Ferguson, S., Mouzon, B., Montague, H., Reed, J., Crynen, G., Emmerich, T., Crocker, M., Pelot, R., Mullan, M., Crawford, F. Lipidomic analyses identify injury-specific phospholipid changes 3 months after traumatic brain injury. FASEB J. 28, 5311-5321 (2014). www.fasebj.org Key Words: controlled cortical impact ⅐ mass spectrometry ⅐ phosphatidylcholine ⅐ phosphatidylethanolamine ⅐ phosphatidylinositol ⅐ sphingomyelin Traumatic brain injury (TBI) is a significant cause of morbidity and mortality in the United States among adults from both the civilian and military populations. Due to the improvements made in military body armor and combat helmets over the past 2 decades, the rate of severe TBI associated with Iraq and Afghanistan deployments has decreased to 1% of the total TBI sustained by military personnel, a rate that is lower than those reported for previous deployments (1-3). Estimates from the U.S. Centers for Disease Control and Prevention suggest that severe TBI remains an important issue in the civilian population. In 2010, 2.5 million admissions to emergency departments were due to TBI (4) contributing to about a third of injury related deaths in the United States. The annual U.S. costs associated with TBI are estimated to be $75 billion, largely attributed to medical care, loss of productivity, and long-term disability (5). Although mild TBI occurs more frequently than severe TBI, the latter has the largest adverse effect on the activities of daily living of injured individuals and accounts for 90% of the total TBI-related medical costs (5). The primary injury is caused by the immediate force of the trauma a...
This study was designed to explore the influence of apolipoprotein E (APOE) on blood phospholipids (PL) in predicting preclinical Alzheimer's disease (AD). Lipidomic analyses were also performed on blood from an AD mouse model expressing human APOE isoforms (EFAD) and five AD mutations and from 195 cognitively normal participants, 23 of who converted to mild cognitive impairment (MCI)/AD within 3 years. APOE ε4-carriers converting to MCI/AD had high arachidonic acid (AA)/docosahexaenoic acid (DHA) ratios in PL compared to cognitively normal ε4 and non-ε4 carriers. Arachidonic acid and DHA containing PL species, ε4-status and Aβ42/Aβ40 ratios provided 91% accuracy in detecting MCI/AD. Fish oil/omega-3 fatty acid consumption was associated with lower AA/DHA ratios even among ε4 carriers. High plasma AA/DHA ratios were observed in E4FAD compared to EFAD mice with other isoforms. In particular, alterations in plasma AA and DHA containing PL species were also observed in the brains of E4FAD mice compared to E3FAD mice. Despite the small sample size and a short follow-up, these results suggest that blood PL could potentially serve as biomarkers of preclinical MCI/AD.
BackgroundIn addition to experiencing traumatic events while deployed in a combat environment, there are other factors that contribute to the development of posttraumatic stress disorder (PTSD) in military service members. This study explored the contribution of genetics, childhood environment, prior trauma, psychological, cognitive, and deployment factors to the development of traumatic stress following deployment.MethodsBoth pre‐ and postdeployment data on 231 of 458 soldiers were analyzed. Postdeployment assessments occurred within 30 days from returning stateside and included a battery of psychological health, medical history, and demographic questionnaires; neurocognitive tests; and blood serum for the D2 dopamine receptor (DRD2), apolipoprotein E (APOE), and brain‐derived neurotropic factor (BDNF) genes.ResultsSoldiers who screened positive for traumatic stress at postdeployment had significantly higher scores in depression (d = 1.91), anxiety (d = 1.61), poor sleep quality (d = 0.92), postconcussion symptoms (d = 2.21), alcohol use (d = 0.63), traumatic life events (d = 0.42), and combat exposure (d = 0.91). BDNF Val66 Met genotype was significantly associated with risk for sustaining a mild traumatic brain injury (mTBI) and screening positive for traumatic stress. Predeployment traumatic stress, greater combat exposure and sustaining an mTBI while deployed, and the BDNF Met/Met genotype accounted for 22% of the variance of postdeployment PTSD scores (R 2 = 0.22, P < 0.001). However, predeployment traumatic stress, alone, accounted for 17% of the postdeployment PTSD scores.ConclusionThese findings suggest predeployment traumatic stress, genetic, and environmental factors have unique contributions to the development of combat‐related traumatic stress in military service members.
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