The role of microglia in the removal of amyloid deposits after systemically administered anti-A antibodies remains unclear. In the current study, we injected Tg2576 APP transgenic mice weekly with an anti-A antibody for 1, 2, or 3 months such that all mice were 22 months at the end of the study. In mice immunized for 3 months, we found an improvement in alternation performance in the Y maze. Histologically, we were able to detect mouse IgG bound to congophilic amyloid deposits in those mice treated with the anti-A antibody but not in those treated with a control antibody. We found that Fc␥ receptor expression on microglia was increased after 1 month of treatment, whereas CD45 was increased after 2 months of treatment. Associated with these microglial changes was a reduction in both diffuse and compact amyloid deposits after 2 months of treatment. Interestingly, the microglia markers were reduced to control levels after 3 months of treatment, whereas amyloid levels remained reduced. Serum A levels and anti-A antibody levels were elevated to similar levels at all three survival times in mice given anti-A injections rather than control antibody injections. These data show that the antibody is able to enter the brain and bind to the amyloid deposits, likely opsonizing the A and resulting in Fc␥ receptor-mediated phagocytosis. Together with our earlier work, our data argue that all proposed mechanisms of anti-A antibody-mediated amyloid removal can be simultaneously active.
APOE has been demonstrated to influence traumatic brain injury (TBI) outcome. The relationship between APOE genotype and memory following TBI was examined in 110 participants in the Defense and Veterans' Head Injury Program. Memory performance was worse in those who had an APOE epsilon 4 allele (n = 30) than those who did not (n = 80), whereas genotype groups did not differ on demographic or injury variables or on measures of executive functioning. These data support a specific role for the APOE protein in memory outcome following TBI, and suggest an APOE isoform-specific effect on neuronal repair processes.
A previously undescribed gene, Saitohin (STH), has been discovered in the intron between exons 9 and 10 of the human tau gene. STH is an intronless gene that encodes a 128-aa protein with no clear homologs. The tissue expression of STH is similar to tau, a gene that is implicated in many neurodegenerative disorders. In humans, a single nucleotide polymorphism that results in an amino acid change (Q7R) has been identified in STH and was used in a case control study. The Q7R polymorphism appears to be over-represented in the homozygous state in late onset Alzheimer's disease subjects.
BackgroundAnti-Aβ immunotherapy in transgenic mice reduces both diffuse and compact amyloid deposits, improves memory function and clears early-stage phospho-tau aggregates. As most Alzheimer disease cases occur well past midlife, the current study examined adoptive transfer of anti-Aβ antibodies to 19- and 23-month old APP-transgenic mice.MethodsWe investigated the effects of weekly anti-Aβ antibody treatment on radial-arm water-maze performance, parenchymal and vascular amyloid loads, and the presence of microhemorrhage in the brain. 19-month-old mice were treated for 1, 2 or 3 months while 23-month-old mice were treated for 5 months. Only the 23-month-old mice were subject to radial-arm water-maze testing.ResultsAfter 3 months of weekly injections, this passive immunization protocol completely reversed learning and memory deficits in these mice, a benefit that was undiminished after 5 months of treatment. Dramatic reductions of diffuse Aβ immunostaining and parenchymal Congophilic amyloid deposits were observed after five months, indicating that even well-established amyloid deposits are susceptible to immunotherapy. However, cerebral amyloid angiopathy increased substantially with immunotherapy, and some deposits were associated with microhemorrhage. Reanalysis of results collected from an earlier time-course study demonstrated that these increases in vascular deposits were dependent on the duration of immunotherapy.ConclusionsThe cognitive benefits of passive immunotherapy persist in spite of the presence of vascular amyloid and small hemorrhages. These data suggest that clinical trials evaluating such treatments will require precautions to minimize potential adverse events associated with microhemorrhage.
Inflammation has been argued to play a primary role in the pathogenesis of Alzheimer's disease by contributing to the development of neuropathology and clinical symptoms. However, the mechanisms underlying these effects remain obscure. Lipopolysaccharide (LPS) activates the innate immune response and triggers gliosis when injected into the central nervous system. In the studies described in the present work, we evaluated the time course of microgliosis after a single intrahippocampal injection of LPS. Mice were injected bilaterally with 4 mug of LPS. Post-injection survival times were 1, 6, and 24 h, as well as 3, 7, 14, and 28 days. Protein and RNA analyses were performed for inflammatory markers. Significant elevations of cluster differentiation marker CD45, glial fibrillary acidic protein (GFAP), scavenger receptor A (SRA), and Fcgamma receptor mRNA were seen after 24 h. Immunohistochemistry revealed a complex pattern of protein expression by microglia, as well as changes in cell morphologies. RNA and protein for Fcgamma receptor and SRA were transiently elevated, peaked at 3 days, and returned to basal levels after 1 week. In contrast, microglia remained significantly activated through the 28-day time point, as determined by CD45 and complement receptor 3 levels. These findings indicate a multivariate response to LPS, and evaluation of microglial phenotypes may lead to a better understanding of neuroinflammatory diseases.
Inflammation has been argued to play a fundamental role in the pathogenesis of Alzheimer's disease. Mice transgenic for mutant human amyloid precursor protein (APP) develop progressive amyloid deposition, gliosis, and cognitive impairment. Paradoxically, intracranial administration of lipopolysaccharide (LPS) to promote neuroinflammation results in a reduction in amyloid-beta peptide (Abeta) burden concurrent with the inflammatory response. To determine whether microglia mediate Abeta clearance after LPS, we used dexamethasone to inhibit the microglial response. Amyloid precursor protein mice were injected intrahippocampally with either LPS or saline and were allowed to survive for 7 days with or without dexamethasone cotreatment. Brain tissue was then analyzed by immunohistochemistry. Hippocampal Abeta burden was reduced 7 days after LPS injection, and this was prevented by cotreatment with dexamethasone. Markers of microglial activation [CD45, complement receptor 3 (CR3), and macrosialin (CD68)] were increased by LPS, and these increases were attenuated by dexamethasone. Dexamethasone failed to block LPS-induced increases in all microglial markers, and Fcgamma receptors II/III and scavenger receptor A were increased by LPS but were unaffected by dexamethasone cotreatment. These results indicate a complex response by microglia to acute LPS treatment, with only some responses sensitive to steroidal anti-inflammatory drug treatment. Nonetheless, microglial activation was necessary to remove Abeta in this model of neuroinflammation.
The reduced or absent risk for AD conferred by APOE in older populations has been well reported in the literature, prompting the suggestion that additional genetic risk factors confer risk for later-onset AD. In the author's dataset the opposite effects of APOE and CST3 genotype on risk for AD with increasing age suggest that CST3 is one of the risk factors for later-onset AD. Although the functional significance of this coding polymorphism has not yet been reported, several hypotheses can be proposed as to how variation in an amyloidogenic cysteine protease inhibitor may have pathologic consequences for AD.
Objectives: To report and associate acute cerebral infarctions in 2 young, previously healthy siblings with use of the street drug known as "spice" (a synthetic marijuana product, also known as "K2"), which they independently smoked before experiencing acute embolic-appearing ischemic strokes.Methods: We present history, physical examination, laboratory data, cerebrovascular imaging, echocardiogram, ECG, and hospital course of these patients.Results: We found that in both siblings spice was obtained from the same source. The drug was found to contain the schedule I synthetic cannabinoid JWH-018. Full stroke workup was unrevealing of a stroke etiology; urine drug screen was positive for marijuana.Conclusions: We found that our 2 patients who smoked the street drug spice had a temporal association with symptoms of acute cerebral infarction. This association may be confounded by contaminants in the product consumed (i.e., marijuana or an unidentified toxin) or by an unknown genetic mechanism. The imaging of both patients suggests an embolic etiology, which is consistent with reports of serious adverse cardiac events with spice use, including tachyarrhythmias and myocardial infarctions. Spice, a schedule I synthetic marijuana (also known as "K2"), is a recreational street drug with many known adverse effects, including seizures and myocardial infarction. However, to our knowledge, cerebral infarction associated with synthetic marijuana use has yet to be reported in the medical literature. Spice is frequently abused by young adults with increasing popularity because of its euphoric effects and the ease with which it is obtained, which creates the perception of "a legal high." The US Drug Enforcement Agency (DEA), law enforcement, hospitals, and poison control centers have noted gradually increasing use of spice in the United States since 2009. In 2011, 5 synthetic cannabinoids used in spice were categorized as schedule I substances under the Controlled Substances Act: JWH-018; JWH-073; 497; and cannabicyclohexanol. 1 At the time of our patients' presentations, spice was available for sale over-the-counter at convenience stores, smoke shops, gas stations, and over the Internet, and labeled as "herbal blends," "air fresheners," or "incense," often with the warning "not for human consumption."2 Common side effects of spice include tachycardia, vomiting, agitation, confusion, and hallucinations; more serious adverse reactions (seizures, myocardial infarction) have recently appeared in the medical literature. 2-4Furthermore, a number of spice-associated deaths have been reported in national news media. To our knowledge, the medical literature has not yet reported ischemic stroke associated with synthetic marijuana. We present 2 young siblings who experienced acute ischemic strokes soon after smoking synthetic marijuana.CASE REPORTS Patient A. A 26-year-old man was brought to the emergency department by emergency medical services approximately 50 minutes after he had the sudden onset of dysarthria, expressive ...
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