Tyrosinase Depletion Prevents the Maturation of Melanosomes in the Mouse Hair Follicle

The mechanisms that lead to variation in human skin and hair color are not fully understood. To better understand the molecular control of skin and hair color variation, we modulated the expression of Tyrosinase (Tyr), which controls the rate-limiting step of melanogenesis, by expressing a single-copy, tetracycline-inducible shRNA against Tyr in mice. Moderate depletion of TYR was sufficient to alter the appearance of the mouse coat in black, agouti, and yellow coat color backgrounds, even though TYR depletion did not significantly inhibit accumulation of melanin within the mouse hair. Ultra-structural studies revealed that the reduction of Tyr inhibited the accumulation of terminal melanosomes, and inhibited the expression of genes that regulate melanogenesis. These results indicate that color in skin and hair is determined not only by the total amount of melanin within the hair, but also by the relative accumulation of mature melanosomes.     

Preemptive CD8 T-Cell Immunotherapy of Acute Cytomegalovirus Infection Prevents Lethal Disease,Limits the Burden of Latent Viral Genomes,and Reduces the Risk of Virus Recurrence

In the immunocompetent host, primary cytomegalovirus (CMV) infection is resolved by the immune response without causing overt disease. The viral genome, however, is not cleared but is maintained in a latent state that entails a risk of virus recurrence and consequent organ disease. By using murine CMV as a model, we have shown previously that multiple organs harbor latent CMV and that reactivation occurs with an incidence that is determined by the viral DNA load in the respective organ (M. J. Reddehase, M. Balthesen, M. Rapp, S. Jonjic, I. Pavic, and U. H. Koszinowski. J. Exp. Med. 179:185–193, 1994). This predicts that a therapeutic intervention capable of limiting the load of latent viral genome should also reduce the risk of virus recurrence. Here we demonstrate the benefits and the limits of a preemptive CD8 T-cell immunotherapy of CMV infection in the immunocompromised bone marrow transplantation recipient. Antiviral CD8 T cells prevented CMV disease and accelerated the resolution of productive infection. The therapy also resulted in a lower load of latent CMV DNA in organs and consequently reduced the incidence of recurrence. The data thus provide a further supporting argument for clinical trials of preemptive cytoimmunotherapy of human CMV disease with CD8 T cells. However, CD8 T cells failed to clear the viral DNA. The therapy-susceptible portion of the DNA load differed between organs and was highest in the lungs. The existence of an invariant, therapy-resistant load suggests a role for immune system evasion mechanisms in the establishment of CMV latency.Recurrence of productive infection by reactivation of latent viral genome in the immunocompromised host is a feature common to the members of the herpesvirus family (39; reviewed in reference 38). Specifically, in the case of human cytomegalovirus (CMV), the human herpesvirus type 5, primary as well as recurrent infection during the temporal immunodeficiency early after bone marrow (BM) transplantation (BMT) entails a risk of graft failure and severe organ manifestations of CMV disease (8, 44). Early findings by Quinnan et al. (24) have suggested a correlation between efficient reconstitution of the cellular immune response and the control of post-BMT CMV infection, and more recent clinical data have attributed this control to the reconstituted CD8 T cells (35). Accordingly, restoration of antiviral immunity in the critical phase before the reconstitution by BMT becomes effective should diminish the risk of CMV disease. Experimental research with the model of murine CMV infection has positively demonstrated the antiviral and protective efficacy of adoptively transferred acutely sensitized (31, 34) or memory (28) CD8 T cells recovered from immune donors as well as of short-term CD8 T-cell lines propagated in culture (32). These studies have been pivotal for clinical trials of a preemptive CD8 T-cell immunotherapy of post-BMT human CMV infection in patients (37, 43).Infection of the BMT recipient can accidentally result from the transmission of infectious virus, however, productive infection is more commonly initiated by reactivation of latent CMV in either the transplant or the recipient’s own organs or, occasionally, both (11). For the murine model system, we have previously demonstrated the existence of multiple organ sites of CMV latency at which the latent viral DNA is retained after the resolution of productive primary infection and after clearance of the viral genome from hematopoietic leukocytic cells in BM and blood (27). In accordance with the wide distribution of the latent viral DNA, recurrence was found to occur focally in any of the organs, which led us to propose the concept of multifocal CMV latency and recurrence (27). Most importantly, the incidence of recurrence was found to correlate with the load of latent viral DNA in the respective tissue. Specifically, low virus dissemination and rapid control of infection in immunocompetent adult mice resulted in a low load and was associated with a low risk of recurrence, whereas the delayed control of infection in neonatal mice resulted in a high load and was associated with a high risk. Furthermore, there were also organ-specific differences. In accordance with the high incidence of interstitial CMV pneumonia after BMT, the lungs were identified as having a high load of latent CMV (2, 17).It is apparent that antiviral CD8 T cells generated during primary infection as well as memory cells present during latency do not eradicate latently infected cells under physiological conditions, since latency would not exist if they did. However, it has been open to question whether adoptive transfer of antiviral CD8 effector cells could prevent the escape of virus into latency. We will show here that modulation of primary infection by experimental CD8 T-cell immunotherapy has indeed had an effect on the load of latent viral DNA in tissues. The effect of the therapy is of relevance, since the load of latent viral DNA can be kept below the threshold required for effective recurrence. Our data thus provide a further supporting argument for clinical trials of cytoimmunotherapy. Interestingly, however, the data also predict that no dosage of CD8 T cells will prevent the establishment of latency.     

Effects of Oil-treated Mycobacterial Cell Walls on the Organs of Mice

Intravenous vaccination of mice with oil-treated mycobacterial cell walls resulted in a marked macrophage accumulation in the lungs and spleens of vaccinated animals. Injection of oil emulsion alone or of cell walls alone failed to elicit the macrophage response. Although a correlation existed between the magnitude of the macrophage response and the degree of immunity against aerosol challenge with H(37)Rv organisms, the findings presented here do not rule out the possibility that qualitative differences may be present in the macrophages of animals vaccinated against tuberculosis. The ability of oil-treated cell walls to elicit an immune response appeared to be a function of the physical association of cell wall fragments and the surface of oil droplets.     

Beta-Lapachone,a Modulator of NAD Metabolism,Prevents Health Declines in Aged Mice

NADH-quinone oxidoreductase 1 (NQO1) modulates cellular NAD⁺/NADH ratio which has been associated with the aging and anti-aging mechanisms of calorie restriction (CR). Here, we demonstrate that the facilitation of NQO1 activity by feeding β-lapachone (βL), an exogenous NQO1 co-substrate, prevented age-dependent decline of motor and cognitive function in aged mice. βL-fed mice did not alter their food-intake or locomotor activity but did increase their energy expenditure as measured by oxygen consumption and heat generation. Mitochondrial structure and numbers were disorganized and decreased in the muscles of control diet group but those defects were less severe in βL-fed aged mice. Furthermore, for a subset of genes associated with energy metabolism, mice fed the βL-diet showed similar changes in gene expression to the CR group (fed 70% of the control diet). These results support the potentiation of NQO1 activity by a βL diet and could be an option for preventing age-related decline of muscle and brain functions.     

Rapid Depletion of DIS3, EXOSC10, or XRN2 Reveals the Immediate Impact of Exoribonucleolysis on Nuclear RNA Metabolism and Transcriptional Control

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Depletion of dendritic cells, but not macrophages, in patients with sepsis

Dendritic cells (DCs) are a group of APCs that have an extraordinary capacity to interact with T and B cells and modulate their responses to invading pathogens. Although a number of defects in the immune system have been identified in sepsis, few studies have examined the effect of sepsis on DCs, which is the purpose of this study. In addition, this study investigated the effect of sepsis on macrophages, which are reported to undergo apoptosis, and MHC II expression, which has been noted to be decreased in sepsis. Spleens from 26 septic patients and 20 trauma patients were evaluated by immunohistochemical staining. Although sepsis did not decrease the number of macrophages, sepsis did cause a dramatic reduction in the percentage area of spleen occupied by FDCs, i.e., 2.9 +/- 0.4 vs 0.7 +/- 0.2% in trauma and septic patients, respectively. The number of MHC II-expressing cells, including interdigitating DCs, was decreased in septic, compared with trauma, patients. However, sepsis did not appear to induce a loss of MHC II expression in those B cells, macrophages, or DCs that were still present. The dramatic loss of DCs in sepsis may significantly impair B and T cell function and contribute to the immune suppression that is a hallmark of the disorder.     

Ifitm3 Limits the Severity of Acute Influenza in Mice

Interferon-induced transmembrane (IFITM) proteins are a family of viral restriction factors that inhibit the entry processes of several pathogenic viruses, including influenza A virus (IAV), in vitro. Here we report that IAV-infected knockout mice lacking the Ifitm locus on chromosome 7 exhibited accelerated disease progression, greater mortality, and higher pulmonary and systemic viral burdens as compared to wild type controls. We further observed that the phenotype of Ifitm3-specific knockout mice was indistinguishable from that of mice lacking the entire Ifitm locus. Ifitm3 was expressed by IAV target cells including alveolar type II pneumocytes and tracheal/bronchial respiratory epithelial cells. Robust Ifitm3 expression was also observed in several tissues in the absence of infection. Among murine Ifitm promoters, only that of Ifitm3 could be induced by type I and II interferons. Ifitm3 could also be upregulated by the gp130 cytokines IL-6 and oncostatin M on cells expressing appropriate receptors, suggesting that multiple cytokine signals could contribute to Ifitm3 expression in a cell or tissue-specific manner. Collectively, these findings establish a central role for Ifitm3 in limiting acute influenza in vivo, and provide further insight into Ifitm3 expression and regulation.     

EPC-K1, a Hydroxyl Radical Scavenger,Prevents 6-Hydroxydopamine-Induced Dopamine Depletion in the Mouse Striatum by Up-Regulation of Catalase Activity

We examined the effect of pretreatment with EPC-K1, a potent hydroxyl radical scavenger, on 6-hydroxydopamine (6-OHDA)-induced reduction of dopamine (DA) and its metabolites in the mouse striatum. EPC-K1 was mixed with diet (0.2%, wt/wt) for 1 or 2 weeks, and then 6-OHDA (60 g in 2l of saline solution) was injected intracereberoventricularly. Mice continued to be fed EPC-K1-containing diet for another one week before they were sacrificed. The concentrations of DA and its metabolites in the striatum were measured by high performance liquid chromatography. 6-OHDA reduced the level of DA and its metabolites in the striatum. Pretreatment with EPC-K1 for 2 weeks, but not for 1 week, abrogated the neurotoxic effect of 6-OHDA on striatal concentrations of DA and its metabolites. Measurement of striatal concentrations of thiobarbituric acid reactive substances, glutathione, and malonaldehyde plus 4-hydroxynonenal, and the activities of superoxide dismutase and catalase in EPC-K1 treated mice showed an increase in catalase activity after 2 weeks of such treatment. No other changes in anti-oxidants levels were noted. Our results suggest that EPC-K1 counteracts the neurotoxicity of 6-OHDA by increasing catalase activities.     

Delayed Treatment with Carboxy-PTIO Permits a 4-h Therapeutic Window of Opportunity and Prevents Against Ischemia-Induced Energy Depletion Following Permanent Focal Cerebral Ischemia in Mice

We examined whether a nitric oxide scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethyl-imidazoline-l-oxyl-3-oxide (carboxy-PTIO), could offer neuroprotective actions and improve cerebral energy metabolism in a model of stroke. Sixty C57BL/10J mice were given either carboxy-PTIO (0.3–1.2 mg/kg) or vehicle intraperitoneally, 0.5 h after permanent middle cerebral artery occlusion, to evaluate the dose–response effects. An additional 70 animals received carboxy-PTIO (0.6 mg/kg) or vehicle, 2–6 h post-ischemia, for establishing the therapeutic window. Subgroups of animals, treated with carboxy-PTIO (0.6 mg/kg) or vehicle, were used for measuring cerebral bioenergetic metabolites (ATP, ADP, AMP, adenosine). Mice treated with carboxy-PTIO (0.6 mg/kg) had dose-specifically reduced brain infarction, significantly by 27–30% (P < 0.05), even when therapy was delayed up to 4 h after the ischemic insult (P < 0.05). Four hour post-ischemia, ATP depleted in the ischemic hemisphere (P < 0.05). Administration with carboxy-PTIO not only improved the recovery of ATP in the ischemic hemisphere (P < 0.05), but also enhanced adenosine content across the ischemic and non-ischemic hemispheres (P < 0.05). The neuroprotection of carboxy-PTIO may be partly attributed to the beneficial effects of improving cerebral energy metabolism.     

Dysphagia in Acute Stroke: Incidence,Burden and Impact on Clinical Outcome

Background

Reported frequency of post-stroke dysphagia in the literature is highly variable. In view of progress in stroke management, we aimed to assess the current burden of dysphagia in acute ischemic stroke.

Methods

We studied 570 consecutive patients treated in a tertiary stroke center. Dysphagia was evaluated by using the Gugging Swallowing Screen (GUSS). We investigated the relationship of dysphagia with pneumonia, length of hospital stay and discharge destination and compared rates of favourable clinical outcome and mortality at 3 months between dysphagic patients and those without dysphagia.

Results

Dysphagia was diagnosed in 118 of 570 (20.7%) patients and persisted in 60 (50.9%) at hospital discharge. Thirty-six (30.5%) patients needed nasogastric tube because of severe dysphagia. Stroke severity rather than infarct location was associated with dysphagia. Dysphagic patients suffered more frequently from pneumonia (23.1% vs. 1.1%, p<0.001), stayed longer at monitored stroke unit beds (4.4±2.8 vs. 2.7±2.4 days; p<0.001) and were less often discharged to home (19.5% vs. 63.7%, p = 0.001) as compared to those without dysphagia. At 3 months, dysphagic patients less often had a favourable outcome (35.7% vs. 69.7%; p<0.001), less often lived at home (38.8% vs. 76.5%; p<0.001), and more often had died (13.6% vs. 1.6%; p<0.001). Multivariate analyses identified dysphagia to be an independent predictor of discharge destination and institutionalization at 3 months, while severe dysphagia requiring tube placement was strongly associated with mortality.

Conclusion

Dysphagia still affects a substantial portion of stroke patients and may have a large impact on clinical outcome, mortality and institutionalization.     

Absence of Perilipin 2 Prevents Hepatic Steatosis,Glucose Intolerance and Ceramide Accumulation in Alcohol-Fed Mice

Background

Perilipin 2 (Plin2) is a lipid droplet protein that has roles in both lipid and glucose homeostasis. An increase in Plin2 in liver is associated with the development of steatosis, glucose intolerance, and ceramide accumulation in alcoholic liver disease. We investigated the role of Plin2 on energy balance and glucose and lipid homeostasis in wildtype and Plin2 knockout (Plin2KO) mice chronically fed a Lieber-DeCarli liquid ethanol or control diet for six weeks.

Methods

We performed in vivo measurements of energy intake and expenditure; body composition; and glucose tolerance. After sacrifice, liver was dissected for histology and lipid analysis.

Results

We found that neither genotype nor diet had a significant effect on final weight, body composition, or energy intake between WT and Plin2KO mice fed alcohol or control diets. Additionally, alcohol feeding did not affect oxygen consumption or carbon dioxide production in Plin2KO mice. We performed glucose tolerance testing and observed that alcohol feeding failed to impair glucose tolerance in Plin2KO mice. Most notably, absence of Plin2 prevented hepatic steatosis and ceramide accumulation in alcohol-fed mice. These changes were related to downregulation of genes involved in lipogenesis and triglyceride synthesis.

Conclusions

Plin2KO mice chronically fed alcohol are protected from hepatic steatosis, glucose intolerance, and hepatic ceramide accumulation, suggesting a critical pathogenic role of Plin2 in experimental alcoholic liver disease.     

Nicotinamide Improves Aspects of Healthspan,but Not Lifespan,in Mice

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The Burden of Rabies in Tanzania and Its Impact on Local Communities

Background

Rabies remains a major public health threat in many parts of the world and is responsible for an estimated 55,000 human deaths annually. The burden of rabies is estimated to be around US$20 million in Africa, with the highest financial expenditure being the cost of post-exposure prophylaxis (PEP). However, these calculations may be substantial underestimates because the costs to households of coping with endemic rabies have not been investigated. We therefore aimed to estimate the household costs, health-seeking behaviour, coping strategies, and outcomes of exposure to rabies in rural and urban communities in Tanzania.

Methods and Findings

Extensive investigative interviews were used to estimate the incidence of human deaths and bite exposures. Questionnaires with bite victims and their families were used to investigate health-seeking behaviour and costs (medical and non-medical costs) associated with exposure to rabies. We calculated that an average patient in rural Tanzania, where most people live on less than US$1 per day, would need to spend over US$100 to complete WHO recommended PEP schedules. High costs and frequent shortages of PEP led to poor compliance with PEP regimens, delays in presentation to health facilities, and increased risk of death.

Conclusion

The true costs of obtaining PEP were twice as high as those previously reported from Africa and should be considered in re-evaluations of the burden of rabies.     

Rapid evolution of female-biased, but not male-biased, genes expressed in the avian brain

The powerful pressures of sexual and natural selection associated with species recognition and reproduction are thought to manifest in a faster rate of evolution in sex-biased genes, an effect that has been documented particularly for male-biased genes expressed in the reproductive tract. However, little is known about the rate of evolution for genes involved in sexually dimorphic behaviors, which often form the neurological basis of intrasexual competition and mate choice. We used microarray data, designed to uncover sex-biased expression patterns in embryonic chicken brain, in conjunction with data on the rate of sequence evolution for >4,000 coding regions aligned between chicken and zebra finch in order to study the role of selection in governing the molecular evolution for sex-biased and unbiased genes. Surprisingly, we found that female-biased genes, defined across a range of cutoff values, show a higher rate of functional evolution than both male-biased and unbiased genes. Autosomal male-biased genes evolve at a similar rate as unbiased genes. Sex-specific genomic properties, such as heterogeneity in genomic distribution and GC content, and codon usage bias for sex-biased classes fail to explain this surprising result, suggesting that selective pressures may be acting differently on the male and female brain.     

Bortezomib Prevents Acute Doxorubicin Ovarian Insult and Follicle Demise,Improving the Fertility Window and Pup Birth Weight in Mice

Increasing numbers of female patients survive cancer, but succumb to primary ovarian insufficiency after chemotherapy. We tested the hypothesis that Bortezomib (Bort) protects ovaries from doxorubicin (DXR) chemotherapy by treating female mice with Bort 1 hour prior to DXR. By preventing DXR accumulation in the ovary, Bort attenuated DXR-induced DNA damage in all ovarian cell types, subsequent γH2AFX phosphorylation, and resulting apoptosis in preantral follicles. Bort pretreatment extended the number of litters per mouse, improved litter size and increased pup weight following DXR treatment, thus increasing the duration of post-chemotherapy fertility and improving pup health. As a promising prophylactic ovoprotective agent, Bort does not interfere with cancer treatment, and is currently used as a chemotherapy adjuvant. Bort-based chemoprotection may preserve ovarian function in a non-invasive manner that avoids surgical ovarian preservation, thus diminishing the health complications of premature menopause following cancer treatment.     

Impact of radio-collars on Yellow-necked Mice, Apodemus flavicollis (Mammalia, Rodentia)

The impact of wearing a radio-collar was investigated for 124 Yellow-necked Mice Apodemus flavicollis, in mixed deciduous woodlands. Collared mice neither lost more weight nor lost weight more frequently than control individuals. The cost of wearing a collar was not greater for small individuals than for larger ones. The impact of wearing a radio-collar was mostly due to the shape and size of the radio-collar and the external antenna rather than the package weight. This aspect was particularly acute in the presence of ticks. One solution to this problem may be to build and use radio-transmitter packages as compact (but nevertheless resistant to gnawing) and symmetrical as possible and to use collars impregnated with tick repellent.     

Selective Depletion of Eosinophils or Neutrophils in Mice Impacts the Efficiency of Apoptotic Cell Clearance in the Thymus

Developing thymocytes undergo a rigorous selection process to ensure that the mature T cell population expresses a T cell receptor (TCR) repertoire that can functionally interact with major histocompatibility complexes (MHC). Over 90% of thymocytes fail this selection process and die. A small number of macrophages within the thymus are responsible for clearing the large number of dying thymocytes that must be continuously cleared. We studied the capacity of thymic macrophages to clear apoptotic cells under acute circumstances. This was done by synchronously inducing cell death in the thymus and then monitoring the clearance of apoptotic thymocytes. Interestingly, acute cell death was shown to recruit large numbers of CD11b⁺ cells into the thymus. In the absence of a minor CSF-1 dependent population of macrophages, the recruitment of these CD11b⁺ cells into the thymus was greatly reduced and the clearance of apoptotic cells was disrupted. To assess a possible role for the CD11b⁺ cells in the clearance of apoptotic cells, we analyzed mice deficient for eosinophils and mice with defective trafficking of neutrophils. Failure to attract either eosinophils or neutrophils to the thymus resulted in the impaired clearance of apoptotic cells. These results suggested that there is crosstalk between cells of the innate immune system that is necessary for maximizing the efficiency of apoptotic cell removal.     

Changes in Natural Foxp3+Treg but Not Mucosally-Imprinted CD62LnegCD38+Foxp3+Treg in the Circulation of Celiac Disease Patients

Background

Celiac disease (CD) is an intestinal inflammation driven by gluten-reactive CD4⁺ T cells. Due to lack of selective markers it has not been determined whether defects in inducible regulatory T cell (Treg) differentiation are associated with CD. This is of importance as changes in numbers of induced Treg could be indicative of defects in mucosal tolerance development in CD. Recently, we have shown that, after encounter of retinoic acid during differentiation, circulating gut-imprinted T cells express CD62L^negCD38⁺. Using this new phenotype, we now determined whether alterations occur in the frequency of natural CD62L⁺Foxp3⁺ Treg or mucosally-imprinted CD62L^negCD38⁺Foxp3⁺ Treg in peripheral blood of CD patients. In particular, we compared pediatric CD, aiming to select for disease at onset, with adult CD.

Methods

Cell surface markers, intracellular Foxp3 and Helios were determined by flow cytometry. Foxp3 expression was also detected by immunohistochemistry in duodenal tissue of CD patients.

Results

In children, the percentages of peripheral blood CD4⁺Foxp3⁺ Treg were comparable between CD patients and healthy age-matched controls. Differentiation between natural and mucosally-imprinted Treg on the basis of CD62L and CD38 did not uncover differences in Foxp3. In adult patients on gluten-free diet and in refractory CD increased percentages of circulating natural CD62L⁺Foxp3⁺ Treg, but normal mucosally-imprinted CD62L^negCD38⁺Foxp3⁺ Treg frequencies were observed.

Conclusions

Our data exclude that significant numeric deficiency of mucosally-imprinted or natural Foxp3⁺ Treg explains exuberant effector responses in CD. Changes in natural Foxp3⁺ Treg occur in a subset of adult patients on a gluten-free diet and in refractory CD patients.