Borrelia burgdorferi infection induces long-term memory-like responses in macrophages with tissue-wide consequences in the heart

Lyme carditis is an extracutaneous manifestation of Lyme disease characterized by episodes of atrioventricular block of varying degrees and additional, less reported cardiomyopathies. The molecular changes associated with the response to Borrelia burgdorferi over the course of infection are poorly understood. Here, we identify broad transcriptomic and proteomic changes in the heart during infection that reveal a profound down-regulation of mitochondrial components. We also describe the long-term functional modulation of macrophages exposed to live bacteria, characterized by an augmented glycolytic output, increased spirochetal binding and internalization, and reduced inflammatory responses. In vitro, glycolysis inhibition reduces the production of tumor necrosis factor (TNF) by memory macrophages, whereas in vivo, it produces the reversion of the memory phenotype, the recovery of tissue mitochondrial components, and decreased inflammation and spirochetal burdens. These results show that B. burgdorferi induces long-term, memory-like responses in macrophages with tissue-wide consequences that are amenable to be manipulated in vivo.

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Effect of a composite mixture of native and oligomeric forms of the α-synuclein protein upon intranasal administration on aging mouse behavior

Nauchno-prakticheskii zhurnal «Patogenez» ◽

10.25557/2310-0435.2018.04.51-57 ◽

2018 ◽

pp. 51-57

Author(s):

О.А. Соловьева ◽

М.А. Грудень ◽

И.А. Калинин ◽

А.М. Ратмиров ◽

В.В. Шерстнев

Keyword(s):

Motor Activity ◽

Lewy Bodies ◽

Behavioral Effects ◽

Long Term Memory ◽

Term Memory ◽

Composite Mixture ◽

Oligomeric Forms

Одним из важнейших патогенетических звеньев развития синуклеинопатий - группы хронических нейродегенеративных заболеваний, таких как болезнь Паркинсона, деменции с тельцами Леви и других является гиперпродукция белка α-синуклеина с последующей его агрегацией и образованием различающихся по размеру и структуре амилоидогенных форм белка, которые инициируют гибель нервных или глиальных клеток. В настоящее время для более полного понимания происходящих in vivo патологических процессов актуально изучение на моделях животных поведенческих эффектов как нативного белка α-синуклеина, так и его отдельных амилоидогенных структур (олигомеров и фибрилл), полученных и охарактеризованных in vitro, а также композиционных смесей данных белковых конформаций. Целью данной работы явилось изучение влияния композиционной смеси нативного белка α-синуклеина и олигомеров α-синуклеина при хроническом интраназальном введении на двигательную активность, кратковременную и долговременную память, а также тревожность стареющих мышей. Методы. Опыты проводили на 12- месячных самцах мышей C57Bl/6, которым на протяжении 14 дней один раз в сутки вводили отдельно в каждую ноздрю раствор α-синуклеина и его олигомеров, либо физиологический раствор. В тестах «Открытое поле», «Распознавание нового объекта», «Условная реакция пассивного избегания» и «Приподнятый крестообразный лабиринт» оценивали двигательную активность, кратко- и долговременную память, и тревожность животных. Результаты. Показано, что исследованная композиционная смесь конформаций α-синуклеина не вызывает статистически значимых изменений регистрируемых поведенческих показателей у стареющих мышей. Вместе с тем, ранее нами было документировано, что в условиях аналогичного экспериментального протокола нативный α-синуклеин инициирует снижение двигательной активности, а олигомеры α-синуклеина - угнетение двигательной активности, нарушение долговременной памяти и тревожности животных. Заключение. Полученные результаты свидетельствуют о менее выраженных поведенческих эффектах композиционной смеси нативной и олигомерной форм α-синуклеина, по сравнению с отдельными ее компонентами. Рассматриваются возможные механизмы выявленных особенностей влияния исследованной композиционной смеси конформаций α-синуклеина на поведенческом уровне. One of the most important steps in the pathogenesis of synucleinopathies, a group of chronic neurodegenerative diseases, such as Parkinson’s disease, dementia with Lewy bodies and others, is overproduction of α-synuclein protein, followed by its aggregation and formation of amyloidogenic protein species, which differ in their size and structure and initiate death of nerve or glial cells. At present, better understanding of in vivo pathological processes requires studying behavioral effects of both the native α-synuclein protein and its individual amyloidogenic structures (oligomers and fibrils) obtained and characterized in vitro on animal models, as well as composite mixtures of these protein conformations. The aim of this work was to study effects of chronic nasal application of a composite mixture of native α-synuclein protein and α-synuclein oligomers on motor activity, short-term and long-term memory, and anxiety of aging mice. Methods. Experiments were carried out on 12-month old male C57Bl/6 mice, which received a solution of α-synuclein and its oligomers or a saline solution separately into each nostril for 14 days daily. Motor activity, short- and long-term memory and anxiety of animals were evaluated in Open Field, Novel Object Recognition, Conditioned Passive Avoidance, and Elevated Plus Maze tests. Results. The studied composite mixture of α-synuclein conformations did not induce statistically significant changes in behavioral indices of aging mice. At the same time, we have previously documented that in a similar experimental protocol, native α-synuclein initiates a decrease in motor activity, and α-synuclein oligomers - inhibition of motor activity and disorders of long-term memory and anxiety. Conclusion. The results indicated less pronounced behavioral effects of the composite mixture of native and oligomeric forms of α-synuclein compared with its individual components. The authors discussed possible mechanisms of the behavioral effects of the studied composite mixture of α-synuclein confirmations.

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Effect of etimizole structural analogues on protein kinase CK2, protein phosphorylation and transcription of chromatin in rat brain cortex and hippocampus

Biomeditsinskaya Khimiya ◽

10.18097/pbmc20206602130 ◽

2020 ◽

Vol 66 (2) ◽

pp. 130-137

Author(s):

B.A. Reikhardt ◽

P.D. Shabanov

Keyword(s):

Protein Kinase ◽

Rat Brain ◽

Protein Kinase Ck2 ◽

Long Term Memory ◽

Term Memory ◽

Structural Analogues ◽

Kinase Ck2

Protein kinase CK2 is an important enzyme in the nervous system. The nuclear forms of CK2 regulate chromatin structure and gene expression, the key processes for long-term memory formation. Memory modulators, the Structural Analogues of Etimizole (SAE), were able to increase or decrease the activity of chromatin-associated CK in the cortex and hippocampus of rat brain in vitro. In vivo memory enhancers from SAE-group (3 mg/kg) stimulated CK2 activity and the transcriptional ability of chromatin in the cortex and hippocampus, starting from 30 min with a peak for 60 min and a duration up to 180 min. At these periods the memory inhibitor from the SAE-group reduced CK2 activity and chromatin transcription. It is assumed that the modulating effect of SAE on CK2 activity and transcription underlies the effects of these compounds on long-term memory.

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Antibody Protection against Long-Term Memory Loss Induced by Monomeric C-Reactive Protein in a Mouse Model of Dementia

Biomedicines ◽

10.3390/biomedicines9070828 ◽

2021 ◽

Vol 9 (7) ◽

pp. 828

Author(s):

Elisa García-Lara ◽

Samuel Aguirre ◽

Núria Clotet ◽

Xenia Sawkulycz ◽

Clara Bartra ◽

...

Keyword(s):

Memory Loss ◽

Long Term Memory ◽

C Reactive Protein ◽

Human Brain Tissue ◽

Term Memory ◽

Reactive Protein ◽

Microglial Cell Line

Monomeric C-reactive protein (mCRP), the activated isoform of CRP, induces tissue damage in a range of inflammatory pathologies. Its detection in infarcted human brain tissue and its experimentally proven ability to promote dementia with Alzheimer’s disease (AD) traits at 4 weeks after intrahippocampal injection in mice have suggested that it may contribute to the development of AD after cerebrovascular injury. Here, we showed that a single hippocampal administration of mCRP in mice induced memory loss, lasting at least 6 months, along with neurodegenerative changes detected by increased levels of hyperphosphorylated tau protein and a decrease of the neuroplasticity marker Egr1. Furthermore, co-treatment with the monoclonal antibody 8C10 specific for mCRP showed that long-term memory loss and tau pathology were entirely avoided by early blockade of mCRP. Notably, 8C10 mitigated Egr1 decrease in the mouse hippocampus. 8C10 also protected against mCRP-induced inflammatory pathways in a microglial cell line, as shown by the prevention of increased generation of nitric oxide. Additional in vivo and in vitro neuroprotective testing with the anti-inflammatory agent TPPU, an inhibitor of the soluble epoxide hydrolase enzyme, confirmed the predominant involvement of neuroinflammatory processes in the dementia induced by mCRP. Therefore, locally deposited mCRP in the infarcted brain may be a novel biomarker for AD prognosis, and its antibody blockade opens up therapeutic opportunities for reducing post-stroke AD risk.

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Neurobiology of a Simple Memory

Journal of Neurophysiology ◽

10.1152/jn.90479.2008 ◽

2008 ◽

Vol 100 (1) ◽

pp. 2-7 ◽

Cited By ~ 55

Author(s):

Donald A. Wilson ◽

Christiane Linster

Keyword(s):

Metabotropic Glutamate Receptor ◽

Long Term Memory ◽

Short Term ◽

Sensory Physiology ◽

Term Memory ◽

Metabotropic Glutamate ◽

Synaptic Physiology

Habituation is one of the simplest forms of memory, yet its neurobiological mechanisms remain largely unknown in mammalian systems. This review summarizes recent multidisciplinary analyses of the neurobiology of mammalian odor habituation including in vitro and in vivo synaptic physiology, sensory physiology, behavioral pharmacology, and computational modeling approaches. The findings show that a metabotropic glutamate receptor–mediated depression of afferent synapses to the olfactory cortex is necessary and perhaps sufficient to account for cortical sensory adaptation and short-term behavioral habituation. Furthermore, long-term habituation is an N-methyl-d-aspartate (NMDA) receptor–dependent process within the olfactory bulb. Thus there is both a pharmacological and anatomical distinction between short-term and long-term memory for habituation. The differential locus of change underlying short- and long-term memory leads to predictable differences in their behavioral characteristics, such as specificity.

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Leukocyte Immunoglobulin-Like Receptor 1-Expressing Human Natural Killer Cell Subsets Differentially Recognize Isolates of Human Cytomegalovirus through the Viral Major Histocompatibility Complex Class I Homolog UL18

Journal of Virology ◽

10.1128/jvi.02614-15 ◽

2016 ◽

Vol 90 (6) ◽

pp. 3123-3137 ◽

Cited By ~ 13

Author(s):

Kevin C. Chen ◽

Richard J. Stanton ◽

Jareer J. Banat ◽

Mark R. Wills

Keyword(s):

Immune Responses ◽

Nk Cells ◽

Natural Killer ◽

Cytomegalovirus Infection ◽

Hcmv Infection ◽

Nk Cell ◽

Long Term Memory ◽

Term Memory

ABSTRACTImmune responses of natural killer (NK) cell are controlled by the balance between activating and inhibitory receptors, but the expression of these receptors varies between cells within an individual. Although NK cells are a component of the innate immune system, particular NK cell subsets expressing Ly49H are positively selected and increase in frequency in response to cytomegalovirus infection in mice. Recent evidence suggests that in humans certain NK subsets also have an increased frequency in the blood of human cytomegalovirus (HCMV)-infected individuals. However, whether these subsets differ in their capacity of direct control of HCMV-infected cells remains unclear. In this study, we developed a novelin vitroassay to assess whether human NK cell subsets have differential abilities to inhibit HCMV growth and dissemination. NK cells expressing or lacking NKG2C did not display any differences in controlling viral dissemination. However, whenin vitro-expanded NK cells were used, cells expressing or lacking the inhibitory receptor leukocyte immunoglobulin-like receptor 1 (LIR1) were differentially able to control dissemination. Surprisingly, the ability of LIR1+NK cells to control virus spread differed between HCMV viral strains, and this phenomenon was dependent on amino acid sequences within the viral ligand UL18. Together, the results here outline anin vitrotechnique to compare the long-term immune responses of different human NK cell subsets and suggest, for the first time, that phenotypically defined human NK cell subsets may differentially recognize HCMV infections.IMPORTANCEHCMV infection is ubiquitous in most populations; it is not cleared by the host after primary infection but persists for life. The innate and adaptive immune systems control the spread of virus, for which natural killer (NK) cells play a pivotal role. NK cells can respond to HCMV infection by rapid, short-term, nonspecific innate responses, but evidence from murine studies suggested that NK cells may display long-term, memory-like responses to murine cytomegalovirus infection. In this study, we developed a new assay that examines human NK cell subsets that have been suggested to play a long-term memory-like response to HCMV infection. We show that changes in an HCMV viral protein that interacts with an NK cell receptor can change the ability of NK cell subsets to control HCMV while the acquisition of another receptor has no effect on virus control.

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The Melatonin Signaling Pathway in a Long-Term Memory In Vitro Study

Molecules ◽

10.3390/molecules23040737 ◽

2018 ◽

Vol 23 (4) ◽

pp. 737 ◽

Cited By ~ 5

Author(s):

Jin-Young Sung ◽

Ji-Hyun Bae ◽

Jong-Ha Lee ◽

Yoon-Nyun Kim ◽

Dae-Kwang Kim

Keyword(s):

Signaling Pathway ◽

In Vitro Study ◽

Vitro Study ◽

Long Term Memory ◽

Term Memory

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Caenorhabditis elegans Learning and Memory

Oxford Research Encyclopedia of Neuroscience ◽

10.1093/acrefore/9780190264086.013.282 ◽

2019 ◽

Author(s):

James S.H. Wong ◽

Catharine H. Rankin

Keyword(s):

Carbon Dioxide ◽

Caenorhabditis Elegans ◽

Classical Conditioning ◽

Learning And Memory ◽

Long Term Memory ◽

Context Conditioning ◽

Term Memory ◽

C Elegans

The nematode, Caenorhabditis elegans (C. elegans), is an organism useful for the study of learning and memory at the molecular, cellular, neural circuitry, and behavioral levels. Its genetic tractability, transparency, connectome, and accessibility for in vivo cellular and molecular analyses are a few of the characteristics that make the organism such a powerful system for investigating mechanisms of learning and memory. It is able to learn and remember across many sensory modalities, including mechanosensation, chemosensation, thermosensation, oxygen sensing, and carbon dioxide sensing. C. elegans habituates to mechanosensory stimuli, and shows short-, intermediate-, and long-term memory, and context conditioning for mechanosensory habituation. The organism also displays chemotaxis to various chemicals, such as diacetyl and sodium chloride. This behavior is associated with several forms of learning, including state-dependent learning, classical conditioning, and aversive learning. C. elegans also shows thermotactic learning in which it learns to associate a particular temperature with the presence or absence of food. In addition, both oxygen preference and carbon dioxide avoidance in C. elegans can be altered by experience, indicating that they have memory for the oxygen or carbon dioxide environment they were reared in. Many of the genes found to underlie learning and memory in C. elegans are homologous to genes involved in learning and memory in mammals; two examples are crh-1, which is the C. elegans homolog of the cAMP response element-binding protein (CREB), and glr-1, which encodes an AMPA glutamate receptor subunit. Both of these genes are involved in long-term memory for tap habituation, context conditioning in tap habituation, and chemosensory classical conditioning. C. elegans offers the advantage of having a very small nervous system (302 neurons), thus it is possible to understand what these conserved genes are doing at the level of single identified neurons. As many mechanisms of learning and memory in C. elegans appear to be similar in more complex organisms including humans, research with C. elegans aids our ever-growing understanding of the fundamental mechanisms of learning and memory across the animal kingdom.

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Allogenicity Boosts Extracellular Vesicle–Induced Antigen-Specific Immunity and Mediates Tumor Protection and Long-Term Memory In Vivo

The Journal of Immunology ◽

10.4049/jimmunol.1801628 ◽

2019 ◽

Vol 203 (4) ◽

pp. 825-834 ◽

Cited By ~ 5

Author(s):

Pia Larssen ◽

Rosanne E. Veerman ◽

Gözde Güçlüler Akpinar ◽

Stefanie Hiltbrunner ◽

Mikael C. I. Karlsson ◽

...

Keyword(s):

Extracellular Vesicle ◽

Long Term Memory ◽

Term Memory ◽

Specific Immunity ◽

Tumor Protection

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Triggering DTH and CTL Activity by fd Filamentous Bacteriophages: Role of CD4+ T Cells in Memory Responses

Journal of Biomedicine and Biotechnology ◽

10.1155/2010/894971 ◽

2010 ◽

Vol 2010 ◽

pp. 1-6 ◽

Cited By ~ 5

Author(s):

Giovanna Del Pozzo ◽

Dina Mascolo ◽

Rossella Sartorius ◽

Alessandra Citro ◽

Pasquale Barba ◽

...

Keyword(s):

T Cells ◽

Cd4 T Cells ◽

Long Term Memory ◽

Short Term ◽

Filamentous Bacteriophages ◽

Ctl Responses

The ability of fd bacteriophage particles to trigger different arms of the immune system has been previously shown by us with particular emphasis on the ability of phages to raise CTL responses in vitro and in vivo. Here we show that fd virions in the absence of adjuvants are able to evoke a DTH reaction mediated by antigen specific CD8+ T cells. In addition, we analyzed the induction of CTL responses in mice depleted of CD4+ T cells, and we observed that short-term secondary CTL responses were induced in the absence of CD4+ T cells while induction of long-term memory CTLs required the presence of CD4+ T lymphocytes. These results examine the cellular mechanism at the basis of fd efficiency and provide new elements to further validate the use of fd particles for eliciting and monitoring antigen-specific CTLs.

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