Atsuko Niwa

Role of Natural Killer Cells in Resistance against Friend Retrovirus-Induced Leukemia

ABSTRACT We have previously shown that immunization with a synthetic peptide that contains a single CD4+ T-cell epitope protects mice against immunosuppressive Friend retrovirus infection. Cells producing infectious Friend virus were rapidly eliminated from the spleens of mice that had been immunized with the single-epitope peptide. However, actual effector mechanisms induced through T-helper-cell responses after Friend virus inoculation were unknown. When cytotoxic effector cells detected in the early phase of Friend retrovirus infection were separated based on their expression of cell surface markers, those lacking CD4 and CD8 but expressing natural killer cell markers were found to constitute the majority of effector cells that lysed Friend virus-induced leukemia cells. Depletion of natural killer cells by injecting anti-asialo-ganglio-N-tetraosylceramide antibody did not affect the number of CD4+ or CD8+ T cells in the spleen, virus antigen-specific proliferative responses of CD4+ T cells, or cytotoxic activity against Friend virus-induced leukemia cells exerted by CD8+ effector cells. However, the same treatment markedly reduced the killing activity of CD4− CD8−effector cells and completely abolished the effect of peptide immunization. Although the above enhancement of natural killer cell activity in the early stage of Friend virus infection was also observed in mice given no peptide, these results have demonstrated the importance and requirement of natural killer cells in vaccine-induced resistance against the retroviral infection.

Genotypes at chromosome 22q12-13 are associated with HIV-1-exposed but uninfected status in Italians.

Objective:Despite multiple and repeated exposures to HIV-1, some individuals possess no detectable HIV genome and show T-cell memory responses to the viral antigens. HIV-1-reactive mucosal IgA detected in such uninfected individuals suggests their possible immune resistance against HIV. We tested if the above HIV-1-exposed but uninfected status was associated with genetic markers other than a homozygous deletion of the CCR5 gene. Methods:Based on our mapping in chromosome 15 of a gene controlling the production of neutralizing antibodies in a mouse retrovirus infection, we genotyped 42 HIV-1-exposed but uninfected Italians at polymorphic loci in the syntenic segment of human chromosome 22, and compared them with 49 HIV-1-infected and 47 uninfected healthy control individuals by a closed testing procedure. Results:A significant association was found between chromosome 22q12-13 genotypes and a putative dominant locus conferring anti-HIV-1 immune responses in the exposed but uninfected individuals. Distributions of linkage disequilibrium across chromosome 22 also differed between the exposed but uninfected and two other phenotypic groups. Conclusions:The data indicated the presence of a new genetic factor associated with the HIV-1-exposed but uninfected status.

Acetylsalicylic acid provides cerebrovascular protection from oxidant damage in salt-loaded stroke-prone rats

Inflammatory processes may play a pivotal role in the pathogenesis of cerebrovascular injury in salt-loaded stroke-prone spontaneously hypertensive rats (SHRSP). Recent reports revealed that acetylsalicylic acid (aspirin) has anti-oxidative properties and elicits nitric oxide release by a direct activation of the endothelial NO synthase. The present study was designed to determine whether low-dose aspirin might prevent cerebrovascular injury in salt-loaded SHRSP by protecting oxidative damage. Nine-week-old SHRSP were fed a 0.4% NaCl or a 4% NaCl diet with or without treatment by naproxen (20 mg/kg/day), salicylic acid (5 mg/kg/day), or aspirin (5 mg/kg/day) for 5 weeks. Blood pressure, blood brain barrier impairment, mortality, and the parameters of cerebrovascular inflammation and damage were compared among them. High salt intake in SHRSP significantly increased blood brain barrier impairment and early mortality, which were suppressed by treatment with aspirin independent of changes in blood pressure. Salt loading significantly increased superoxide production in basilar arteries of SHRSP, which were significantly suppressed by treatment with aspirin. Salt loading also significantly decreased NOS activity in the basilar arteries of SHRSP, which were significantly improved by treatment with aspirin. At 5 weeks after salt loading, macrophage accumulation and matrix metalloproteinase-9 activity at the stroke-negative area in cerebral cortex of SHRSP were significantly reduced by treatment with aspirin. These results suggest that low-dose aspirin may exert protective effects against cerebrovascular inflammation and damage by salt loading through down-regulation of superoxide production and induction of nitric oxide synthesis.

Reactive oxygen intermediates from eosinophils in mice infected with Hymenolepis nana

A large number of eosinophils were recruited to the intestinal villi after infection with Hymenolepis nana. Eosinophil numbers were increased more rapidly in challenged mice than in primary infected mice. Local intestinal eosinophils from challenged mice showed more extracellular oxygen radical release, as assessed by histochemical mothods using nitro blue tetrazolium, accompanied with tissue injury and larval degradation. Intestinal eosinophils isolated from the lamina propria induced specific oxygen radical generation in response to H. nana oncosphere extract as measured by luminol‐dependent chemiluminescence. This response was stronger in challenged mice than in primary infected mice. Radical generation from uninfected mice was negligible. Lipid peroxidation in the small intestine, as measured by formation of malondialdehyde, was increased during H. nana challenge infection, the peak activity coinciding with the elimination of challenge larvae. Continuous administration of a NADPH oxidase inhibitor to sensitized mice interfered with the degeneration of challenge larvae. These results suggest that intestinal eosinophils may be the major contributor to oxygen radical production in response to H. nana and that reactive oxygen species may play a part of effector molecule in the resistance to reinfection with H. nana

Voluntary exercise induces neurogenesis in the hypothalamus and ependymal lining of the third ventricle.

In the adult hypothalamus and ependymal lining of the third ventricle, tanycytes function as multipotential progenitor cells that enable continuous neurogenesis, suggesting that tanycytes may be able to mediate the restoration of homeostatic function after stroke. Voluntary wheel running has been shown to alter neurochemistry and neuronal function and to increase neurogenesis in rodents. In the present study, we found that voluntary exercise improved the survival rate and energy balance of stroke-prone spontaneously hypertensive rats (SHRSP/Kpo). We also investigated the effect of exercise on the proliferation and differentiation of hypothalamic cells using immunoreactivity for tanycytes and neural markers. The proliferation of elongated cells, which may be the tanycytes, was enhanced in exercising SHRSP compared to sedentary rats before and after stroke. In addition, the proliferation of cells was correlated with the induction of fibroblast growth factor-2 in the subependymal cells of the third ventricle and in the cerebrospinal fluid. Some of the newborn cells of exercising SHRSP showed differentiation into mature neurons after stroke. Our results suggest that voluntary exercise correlates with hypothalamic neurogenesis, leading to recovery of homeostatic functions in the adult brain after stroke.

In Vivo Diagnostic Imaging Using Micro-CT: Sequential and Comparative Evaluation of Rodent Models for Hepatic/Brain Ischemia and Stroke

Background There is an increasing need for animal disease models for pathophysiological research and efficient drug screening. However, one of the technical barriers to the effective use of the models is the difficulty of non-invasive and sequential monitoring of the same animals. Micro-CT is a powerful tool for serial diagnostic imaging of animal models. However, soft tissue contrast resolution, particularly in the brain, is insufficient for detailed analysis, unlike the current applications of CT in the clinical arena. We address the soft tissue contrast resolution issue in this report. Methodology We performed contrast-enhanced CT (CECT) on mouse models of experimental cerebral infarction and hepatic ischemia. Pathological changes in each lesion were quantified for two weeks by measuring the lesion volume or the ratio of high attenuation area (%HAA), indicative of increased vascular permeability. We also compared brain images of stroke rats and ischemic mice acquired with micro-CT to those acquired with 11.7-T micro-MRI. Histopathological analysis was performed to confirm the diagnosis by CECT. Principal Findings In the models of cerebral infarction, vascular permeability was increased from three days through one week after surgical initiation, which was also confirmed by Evans blue dye leakage. Measurement of volume and %HAA of the liver lesions demonstrated differences in the recovery process between mice with distinct genetic backgrounds. Comparison of CT and MR images acquired from the same stroke rats or ischemic mice indicated that accuracy of volumetric measurement, as well as spatial and contrast resolutions of CT images, was comparable to that obtained with MRI. The imaging results were also consistent with the histological data. Conclusions This study demonstrates that the CECT scanning method is useful in rodents for both quantitative and qualitative evaluations of pathologic lesions in tissues/organs including the brain, and is also suitable for longitudinal observation of the same animals.

Involvement of thromboxane A2 receptor in the cerebrovascular damage of salt-loaded, stroke-prone rats

Background Inflammatory processes may play a pivotal role in the pathogenesis of cerebrovascular injury in salt-loaded, stroke-prone, spontaneously hypertensive rats (SHRSP). Thromboxane A2 (TP) receptor stimulation by 8-iso-prostaglandin F2α (8-iso-PGF2α) is involved in the process of vascular inflammation. Objective In the present study, we examined the involvement of TP receptor in the development of cerebrovascular damage in salt-loaded SHRSP. Methods Nine-week-old SHRSP were fed a 0.4% NaCl or a 4% NaCl diet with or without ONO-8809 treatment (a TP receptor antagonist) for 5 weeks. Blood pressure, mortality, and the parameters of cerebrovascular inflammation and damage were compared between the groups. Moreover, we examined the effect of 8-iso-PGF2α infusion on cerebrovascular injury of SHRSP. Results High salt intake in SHRSP significantly increased blood–brain barrier impairment and early mortality, which were suppressed by ONO-8809 treatment independent of changes in blood pressure. Salt loading also significantly increased superoxide production in basilar arteries of SHRSP, which was suppressed by ONO-8809 treatment. Macrophage accumulation and matrix metalloproteinase-9 (MMP-9) activity in the stroke-negative area in the contralateral cerebral cortex to the stroke lesion of salt-loaded SHRSP and 8-iso-PGF2α–treated SHRSP were significantly reduced by ONO-8809 treatment. The ONO-8809 treatment prevented thinning of the vessel layer in cerebral arterioles of salt-loaded SHRSP and 8-iso-PGF2α–treated SHRSP. Conclusions These results suggest that TP receptor stimulation by 8-iso-PGF2α may involve salt loading-induced stroke through activation of cerebrovascular inflammation and damage.

Ultrastructural aspects of immune damage to Hymenolepis nana oncospheres in mice

Abstract When Hymenoiepis nana eggs were inoculated orally into unimmunized mice, the oncosphere larvae penetrated the intestinal villi and underwent postembryonic development. The ultra-structural changes during the 48 h after infection were characterized by the development of microvillar protrusions on the surface of the epithelium, development of many membranous vesicles in the epithelium, and proliferation of undifferentiated cells in the parenchyma with a rapid disappearance of penetration gland cells and muscle cells. The epithelium of larvae from a challenge infection of mice that had been immunized by oral infection with eggs was severely damaged as shown by the increased electron density, shrinking of the cytoplasm and formation of large empty vacuoles. Development of microvillar protrusions and intraepithelial vesicles were not seen. Changes of internal structure were similar to those changes seen in the larvae of unimmunized mice. It was evident that host immunity, resulting in the ultimate death of challenge larvae during 24 h after challenge, was primarily directed against the epithelium of the larva. Host cells which firmly adhered to the larva in unimmunized mice were monocytes and macrophages with occasional infiltration of eosinophils and plasma cells, whereas the host cells in immunized mice were almost exclusively eosinophils and macrophages. It was suggested that the degeneration of larvae in immunized mice was caused by the action of specific antibody directed against larval epithelium. The cooperative action of antibody and eosinophils or macrophages in killing challenge larvae was also suggested.

Gene expression in the adrenal glands of three spontaneously hypertensive rat substrains.

We examined gene expression profiles in rat adrenal glands using genome-wide microarray technology. Gene expression levels were determined in four rat strains, including one normotensive strain [Wistar-Kyoto (WKY)] and three substrains derived from WKY rats: spontaneously hypertensive rats (SHR), stroke-prone SHR (SHRSP) and malignant SHRSP (M-SHRSP). This study represents the first attempt at using microarrays to compare gene expression profiles in SHR, SHRSP and M-SHRSP adrenal glands, employing WKY as controls. Expression measurements were made in these four rat strains at 6 and 9 weeks of age; 6 weeks of age covers the pre-hypertensive period in SHR and SHRSP, and 9 weeks of age is the period of rapidly rising blood pressure (BP). Since the aim of this study was to identify candidate genes involved in the genesis of hypertension in the SHR substrains, we identified genes that were consistently different in their expression, isolating 87 up-regulated genes showing a more than 4-fold increase and 128 down-regulated genes showing a less than 1/4-fold decrease in at least two different experiments. We classified all these up- or down-regulated genes by their expression profiles, and searched for candidate genes. At 6 weeks of age, several BP-regulating genes including sparc/osteonectin (Spock2), kynureninase (Kynu), regulator of G-protein signaling 2 (Rgs2) and gap junction protein α1 (Gja1) were identified as up-regulated, and urotensin 2 (Uts2), cytoplasmic epoxide hydrolase 2 (Ephx2), apelin (Apln), insulin-like growth factor 1 receptor (Igf1r) and angiotensin II receptor-associated protein (Agtrap) were identified as down-regulated. The Kynu and Ephx2 genes have previously been reported by other groups to be responsible for hypertension in SHR; however, our present approach identified at least seven new candidate genes.

Antagonism of IL-4 signaling by a phosphodiesterase-4 inhibitor, rolipram, in human T cells.

Background: Phosphodiesterase (PDE4) inhibitors prevent breakdown of cAMP and affect the increase in cellular levels of cAMP, which is known to regulate immune cell functions. Because IL-4 plays a causal role in the pathogenesis of allergic disorders, we were interested to study the modulatory mechanisms of a PDE4 inhibitor, rolipram, in IL-4-mediated signaling in T cells. Methods: Human peripheral T cells were stimulated with IL-4 in combination with rolipram, and RT-PCR was performed using primers specific for IL-5. To monitor activation of transcription factors, immunostaining was employed. Results: Rolipram or a cAMP-analogue, 8-Br-cAMP, significantly downregulated IL-4-induced expression of IL-5 mRNA. The rolipram-induced inhibition of IL-5 mRNA was mediated by activation of protein kinase A (PKA), because rolipram-downregulated mRNA expression of IL-5 was restored by PKA inhibitors. Immunostaining revealed that rolipram interfered with IL-4-induced nuclear translocation of activator protein (AP)-1 components. Conclusions: This is the first demonstration of suppression of IL-4 signaling by PDE4 inhibitors via prevention of nuclear translocation of AP-1.