Garcinia Kola and Kolaviron Attenuates Bisphenol A-Induced Memory Impairment and Hippocampal Neuroinflammation in Male Wistar Rats

Bisphenol A (BPA), a toxicant which can leach into food from plastic containers, is reported to induce neurotoxicity among others via oxidative mechanisms. However, antioxidant compounds have been suggested to mitigate BPA-induced toxicities. Garcinia kola (GK) and its bioactive compound, kolaviron, are well-established natural antioxidants, which can exert protective effects against BPA-induced toxicities. This study was designed to investigate the likely mitigating effect of GK and kolaviron on BPA-induced memory impairment and hippocampal neuroinflammation in male Wistar rats. Thirty-five rats were equally grouped and treated as follows: I and II received distilled water and corn oil, respectively at 0.2 mL, while III - VII received BPA (50 mg/kg), BPA + GK (200 mg/kg), BPA + kolaviron (200 mg/kg), GK and kolaviron, respectively for 28 days p.o. Thereafter, behavioral studies were done using the Novel Object Recognition and Y maze tests. Subsequently under anaesthesia, the hippocampus in each animal was dissected out, homogenized and analysed for malondialdehyde, superoxide dismutase, catalase, reduced glutathione, glutathione transferase, nitrites, interleukin-6, tumour necrosis factor-α, acetylcholinesterase, glutamate acid decarboxylase, and arginase activity. Data were analyzed by ANOVA and Tukey Post-hoc test at p p Garcinia kola and Kolaviron mitigate bisphenol A-induced memory impairment and neuroinflammation via antioxidant potentiation and neurotransmitter balance.

Mechanism of Learning and Memory Impairment in Rats Exposed to Arsenic and/or Fluoride Based on Microbiome and Metabolome

Objective Arsenic(As) and fluoride(F) are two of the most common elements contaminating groundwater resources. A growing number of studies have found that As and F can cause neurotoxicity in infants and children, leading to cognitive, learning, and memory impairments. However, early biomarkers of learning and memory impairment induced by As and/or F remain unclear. In the present study, the mechanisms by which As and/or F cause learning memory impairment are explored at the multi-omics level(microbiome and metabolome).Methods We stablished an SD rats model exposed to arsenic and/or fluoride from intrauterine to adult period.Results Arsenic and/fluoride exposed groups showed reduced neurobehavioral performance and lesions in the hippocampal CA1 region. 16S rRNA gene sequencing revealed that As and/or F exposure significantly altered the composition and diversity of the gut microbiome, featuring the Lachnospiraceae_NK4A136_group, Ruminococcus_1, Prevotellaceae_NK3B31_group, [Eubacterium]_xylanophilum_group. Metabolome analysis showed that As and/or F-induced learning and memory impairment may be related to tryptophan, lipoic acid, glutamate, gamma-aminobutyric acidergic(GABAergic) synapse, and arachidonic acid(AA) metabolism. The gut microbiota, metabolites, and learning memory indicators were significantly correlated.Conclusion Learning memory impairment triggered by As and/or F exposure may be mediated by different gut microbes and their associated metabolites.

TRPV4-induced Neurofilament Injury Contributes to Memory Impairment after High Intensity and Low Frequency Noise Exposures

Objective Exposure to high intensity, low frequency noise(HI-LFN) causes vibroacoustic disease(VAD),with memory deficit as a primary non-auditory symptomatic effect of VAD. However, the underlying mechanism of the memory deficit is unknown. This study aimed to characterize potential mechanisms involving morphological changes of neurons and nerve fibers in the hippocampus, after exposure to HILFN.Methods Adult wild-type and transient receptor potential vanilloid subtype 4 knockout(TRPV4^(-/-)) mice were used for construction of the HI-LFN injury model. The new object recognition task and the Morris water maze test were used to measure the memory of these animals. Hemoxylin and eosin and immunofluorescence staining were used to examine morphological changes of the hippocampus after exposure to HI-LFN.Results The expression of TRPV4 was significantly upregulated in the hippocampus after HI-LFN exposure. Furthermore, memory deficits correlated with lower densities of neurons and neurofilamentpositive nerve fibers in the cornu ammonis 1(CA1) and dentate gyrus(DG) hippocampal areas in wildtype mice. However, TRPV4^(-/-)mice showed better performance in memory tests and more integrated neurofilament-positive nerve fibers in the CA1 and DG areas after HI-LFN exposure.Conclusion TRPV4 up-regulation induced neurofilament positive nerve fiber injury in the hippocampus,which was a possible mechanism for memory impairment and cognitive decline resulting from HI-LFN exposure. Together, these results identified a promising therapeutic target for treating cognitive dysfunction in VAD patients.

Anticonvulsant Effects of Chrysanthellum americanum L. (Vatke) Aqueous Extract in Mice Pilocarpine Model of Epilepsy and Associated Memory Impairment: Role of Antioxidant Defense System and Cholinergic Transmission

Chrysanthellum americanum (L.) Vatke is a medicinal plant used by the traditional healers to treat epilepsy and associated memory impairment. This work aims at evaluating the anticonvulsant effects of Chrysanthellum americanum aqueous extract in mice pilocarpine model of epilepsy and associated memory loss. Mice were administered orally Chrysanthellum americanum aqueous extract (27.69, 69.22, 138.45, 276.9 mg/kg, prepared from the whole part) for test groups, intraperitoneally 300 mg/kg sodium valproate for the positive control group or orally 10 mL/kg distilled water for the negative control group, respectively, during a period of seven consecutive days. On the first day, temporal lobe epilepsy was induced by intraperitoneal injection of 360 mg/kg pilocarpine one hour after the administration of different treatment to mice, and the occurrence of status epilepticus was evaluated. On the second day, the anticonvulsant property was measured after the intraperitoneal injection of a sub-convulsive dose of picrotoxin (1 mg/kg). On the seventh day, the anti-amnesic properties of the extract were evaluated in the epileptic mice using the T-maze and open field paradigms. The results show that Chrysanthellum americanum extract significantly (p Chrysanthellum americanum (276.9 mg/kg) likewise sodium valproate (300 mg/kg) significantly (p Chrysanthellum americanum aqueous extract has anticonvulsant effects against pilocarpine induced-epileptic seizures and memory impairment. These properties could be mediated by the amelioration of antioxidant defense system and cholinergic neurotransmission in epileptic mice, which could partly justify the use of Chrysanthellum americanum in the traditional medicine for the treatment of epilepsy.

Research advances on how metformin improves memory impairment in “chemobrain”

Cognitive impairment caused by chemotherapy,referred to as“chemobrain,”is observed in approximately 70% of cancer survivors.However,it is not completely understood how chemotherapy induces cognitive dysfunction,and clinical treatment strategies for this problem are lacking.Metformin,used as a first-line treatment for type 2 diabetes mellitus,is reported to reduce the effects of chemobrain.Recently,several studies have examined the effect of metformin in rescuing chemobrain.This review discusses recent clinical/preclinical studies that addressed some mechanisms of chemobrain and evaluates the effect of metformin in rescuing chemobrain and its potential mechanisms of action.

Is thalamocortical tract injury responsible for memory impairment in a patient with putaminal hemorrhage?

Prior to development of diffusion tensor imaging （DTI）, there were many difficulties in visualization and estimation of the Papez circuit in the live human brain （Papez, 1995）. Diffusion tensor tractography （DTT）, derived from DTI, allows for identification and visualization of neural tracts in the Papez circuit （Concha et al., 2005; Kwon et al., 2010; Granziera et al., 2011; Jang and Yeo, 2013; Jang et al., 2014a）. In the current study, using DTT, we report on a patient who showed injured thalamocortical tract between the anterior thalamic nuclei and the cingulate gyrus following a putaminal hemorrhage.

Imperatorin alleviates Aβ-induced spatial learning memory impairment and neuroinflam⁃mation in model mice of Alzheimer disease

OBJECTIVE To investigate the effects of imperatorin on the spatial learning memory impairment and neuroinflammation in model mice of Alzheimer disease(AD)induced by intracerebroventricular injection of Aβ1-42.METHODS Mouse model of AD was established by injection of Aβ1-42 into the lateral ventricles.Im⁃peratorin(2.5 and 5.0 mg·kg-1,daily)was inject⁃ed by intraperitoneally 1 h after intracerebroven⁃tricular injection for 13 d.The effect of imperato⁃rin on the spatial learning and memory impair⁃ment was assessed by eight arm maze tests.The levels of cytokines TNF-α,IL-1β,IL-6,IL-18 and chemokines MCP-1 in mouse cortex and hip⁃pocampus were detected by ELISA.The protein expression of NF-κB P65,TLR4,MyD88,p-P38,p-ERK,and p-JNK were detected by Western blotting.RESULTS As compared with the AD model group,imperatorin treatment significantly attenuated Aβ1-42-induced spatial learning and memory impairment assessed by eight arm maze tests.In addition,imperatorin significantly reduced the levels of cytokines TNF-α,IL-1β,IL-6,IL-18 and chemokines MCP-1 in the cerebral cortex and hippocampus.Meanwhile,Western blotting results showed that imperatorin treat⁃ment significantly down-regulated the protein expression of NF-κB P65,TLR4,MyD88,p-P38,p-ERK,and p-JNK.CONCLUSION Imperatorin has neuroprotective effects in the Aβ1-42 induced AD model mice and its mechanism may be partially associated with the inhibition of inflam⁃matory response in the cortex and hippocampus.

Selective verbal memory impairment due to left fornical crus injury in a patient with intraventricular hemorrhage

The fornix, a part of the Papez circuit, transfers information of episodic memory between the medial temporal lobe and the medial diencephalon （Aggleton and Brown, 1999）. The right medial temporal lobe is known to be specialized for visual memory and the left medial temporal lobe for verbal memory （Tucker et al., 1988; Aegleton and Brown, 1999）.

A Computerized Evaluation of Sensory Memory and Short-term Memory Impairment After Rapid Ascent to 4280 m

To evaluate the effect of acute high-altitude exposure on sensory and short-term memory using interactive software,we transported 30 volunteers in a sport utility vehicle to a 4280 m plateau within3 h.We measured their memory performance on the plain（initial arrival）and 3 h after arrival on the plateau using six measures.

Jian Nao Ning for Treatment of Memory Impairment in Patients with Mild or Moderate Multi-infarct Dementia

Forty patients with multi-infarct dementia (MID) were randomly assigned to the treatment group (25 cases) treated with Jian Nao Ning (健脑宁JNN) and the duxil control group (15 cases). Memory function were assessed at baseline and endpoint using memory subscales of a battery of New Psychometric Tests (Chinese version) including mini-mental state examination (MMSE), verbal memory, and non-verbal memory, etc. After treatment, the mean scores of verbal memory in the Hopkins Verbal Learning Test (P<0.05) and total memory scores of memory items (P<0.001) in JNN group increased significantly; and improvement in episodic memory function including story recall (immediate and delayed), delayed word recall, verbal learning and verbal recognition and visual recognition in the JNN group was better than that in the duxil control group, suggesting that JNN can obviously improve memory function for the patients with mild or moderate multi-infarct dementia.

BI-D1870 Causes the Rats’ Learning and Memory Acquisition Ability Impairment

Aim: To observe the rats’ learning and memory acquisition ability disturbance induced by BI-D1870. Methods: Male SD rats were randomly divided into control group, solvent control group and BI-D1870 group. The rats in the control group were intraperitoneally injected with saline, while those in the solvent control group were intraperitoneally injected with DMSO + sulfobutyl-β-cyclodextrin solvent, and those in the BI-D1870 group were intraperitoneally injected with BI-D1870. All the rats’ appearance and behavior were daily observed, and body weight was recorded on the day 15, 30, 45, 60, 75 and 82 of BI-D1870 injected. Morris water maze was used to screen the rats’ learning and memory acquisition ability on the day 22 - 25, 52 - 55, and 82 - 85 of training by BI-D1870 treated. The successful rates of the rats’ memory impairment were respectively calculated for three times screening. Results: During the whole experiment, there was no obvious difference in appearance and fur color in all rats. The rats’ agitation began to appear on the day 10th of BI-D1870 given. The agitation rats’ number and rats’ body weight gradually increased along with BI-D1870 treated (P P Conclusion: Intraperitoneal injection of BI-D1870 can induce the rats’ learning and memory acquisition ability disorder.

γ-secretase inhibitor DAPT prevents neuronal death and memory impairment in sepsis associated encephalopathy in septic rats

Background Brain dysfunction is a frequent complication of sepsis,usually defined as sepsis-associated encephalopathy （SAE）.Although the Notch signaling pathway has been proven to be involved in both ischemia and neuronal proliferation,its role in SAE is still unknown.Here,the effect of the Notch signaling pathway involved γ-secretase inhibitor DAPT on SAE in septic rats was investigated in a cecal ligation and puncture （CLP） model.Methods Fifty-nine Sprague-Dawley rats were randomly divided into four groups,with the septic group receiving the CLP operation.Twenty-four hours after CLP or sham treatment,rats were sacrificed and their hippocampus was harvested for Western blot analysis.TNF-αexpression was determined using an enzyme-linked immunosorbent assay （ELISA） kit.Neuronal apoptosis was assessed by TUNEL staining,and neuronal cell death was detected by H＆E staining.Finally,a novel object recognition experiment was used to evaluate memory impairment.Results Our data showed that sepsis can increase the expression of hippocampal Notch receptor intracellular domain （NICD） and poly （adenosine diphosphate [ADP]-ribose） polymerase-1 （PARP-1）,as well as the inflammatory response,neuronal apoptosis,neuronal death,and memory dysfunction in rats.The γ-secretase inhibitor N-[N-（3,5-difluorophenacetyl）-1-alanyl]-S-phenylglycine t-butyl ester （DAPT） can significantly decrease the level of NICD and PARP-1,reduce hippocampal neuronal apoptosis and death,attenuate TNF-α release and rescue cognitive impairment caused by CLP.Conclusion The neuroprotective effect of DAPT on neuronal death and memory impairment in septic rats,which could be a new therapeutic approach for treating SAE in the future.

Effects of thioperamide on seizure development and memory impairment induced by pentylenetetrazole-kindling epilepsy in rats

Background Histamine H3 receptor antagonists have been considered as potential drugs to treat central nervous system diseases. However, whether these drugs can inhibit epileptogenesis remains unclear. This study aimed to investigate the effects of thioperamide, a selective and potent histamine H3 receptor antagonist, on the seizure development and memory impairment induced by pentylenetetrazole （PTZ）-kindling epilepsy in rats. Methods Chemical kindling was elicited by repeated intraperitoneal （ip） injections of a subconvulsant dose of PTZ （35 mg/kg） once every 48 hours for 12 times, and seizure activity of kindling was recorded for 30 minutes. Control rats were ip injected with saline instead of PTZ. Morris water maze was used to evaluate the spatial memory. Phosphorylated cyclic adenosine monophosphate response element binding protein （p-CREB） was tested by Western blotting in hippocampus. Results Intracerebroventricular （icv） injections with thioperamide （10 μg, 20 μg） 30 minutes before every PTZ injections, significantly prolonged the onset of PTZ-kindling and inhibited the seizure stages. PTZ-kindling seizures led to the impairment of spatial memory in rats, and thioperamide ameliorated the impairment of spatial learning and memory. Compared to non-kindling rats, there was a significant decrease in p-CREB level in hippocampus of the PTZ-kindling rats, which was reversed by thioperamide. Conclusions Thioperamide plays a protective role in seizure development and cognitive impairment of PTZ-induced kindling in rats. The protection of thioperamide in cognitive impairment is possibly associated with the enhancement of CREB-dependent transcription.

Overexpression of Purinergic P2X4 Receptors in Hippocampus Rescues Memory Impairment in Rats with Type 2 Diabetes

Purinergic receptors have been reported to be involved in brain disorders.In this study,we explored their roles and mechanisms underlying the memory impairment in rats with type 2 diabetes mellitus(T2 DM).T2 DM rats exhibited a worse performance in the T-maze and Morris water maze(MWM) than controls.Microglia positive for P2 X purinoceptor 4(P2 X4 R) in the hippocampus were reduced and activated microglia were increased in T2 DM rats.Long Amplicon PCR(LA-PCR) showed that DNA amplification of the p2 x4 r gene in the hippocampus was lower in T2 DM rats.Minocycline significantly reduced the number of activated microglia and the mean distance traveled by T2 DM rats in the MWM.Most importantly,P2 X4 R overexpression suppressed the activated microglia and rescued the memory impairment of T2 DM rats.Overall,T2 DM led to excessive activation of microglia in the hippocampus,partly through the DNA damagemediated downregulation of P2 X4 Rs,thus contributing to memory impairment.

Effects of GBE50 on hippocampal CA1 synaptic plasticity,learning and memory in an experimental rat model of aging

The content of total flavonoids in an extract of Ginkgo biloba, called GBE50, is 44% by weight. This is significantly greater than that in a standard extract of Ginkgo biloba, designated EGB761. To date, the mechanisms by which GBE50 and EGB761 function remain poorly understood. In the present study, an experimental rat model of aging was induced by intraperitoneal injection of D-galactose, followed by intragastric perfusion of GBE50 （30, 60 mg/kg）, or EGB761 （60 mg/kg）. The water maze scores and hippocampal CA1 synaptic plasticity were evaluated. In the place navigation test, the GBE50 group rats did better than EGB761, while similar scores were obtained in the spatial probe test, and in the platform-switched test. In addition, long-term potentiation was significantly enhanced following high-frequency stimulation in the GBE50 and EGB761 groups, compared with the model group. These results demonstrate that GBE50 and EGB761 improved the learning and memory of aging rats. In particular, GBE50 administered at the 60 mg/kg dose exhibited superior effects over EGB761 at the same 60 mg/kg dose. Furthermore, the enhancement of hippocampal synaptic plasticity may be an underlying mechanism.

Chlorogenic acid protection of neuronal nitric oxide synthase-positive neurons in the hippocampus of mice with impaired learning and memory

BACKGROUND： Clinical practice and modern pharmacology have confirmed that chlorogenic acid can ameliorate learning and memory impairments. OBJECTIVE： To observe the effects of chlorogenic acid on neuronal nitric oxide synthase （nNOS）-positive neurons in the mouse hippocampus, and to investigate the mechanisms underlying the beneficial effects of chlorogenic acid on learning and memory. DESIGN, TIME AND SETTING： The present randomized, controlled, neural cell morphological observation was performed at the Institute of Neurobiology, Central South University between January and May 2005. MATERIALS： Forty-eight female, healthy, adult, Kunming mice were included in this study. Learning and memory impairment was induced with an injection of 0.5 uL kainic acid （0.4 mg/mL） into the hippocampus. METHODS： The mice were randomized into three groups （n = 16）： model, control, and chlorogenic acid-treated. At 2 days following learning and memory impairment induction, intragastric administration of physiological saline or chlorogenic acid was performed in the model and chlorogenic acid-treated groups, respectively. The control mice were administered 0.5uL physiological saline into the hippocampus, and 2 days later, they received an intragastfic administration of physiological saline. Each mouse received two intragastric administrations （1 mL solution once） per day, for a total of 35 days. MAIN OUTCOME MEASURES： Detection of changes in hippocampal and cerebral cortical nNOS neurons by immunohistochemistry; determination of spatial learning and memory utilizing the Y-maze device. RESULTS： At day 7 and 35 after intervention, there was no significant difference in the number of nNOS-positive neurons in the cerebral cortex between the model, chlorogenic acid, and control groups （P 〉 0.05）. Compared with the control group, the number of nNOS-positive neurons in the hippocampal CA1-4 region was significantly less in the model group （P 〈 0.05）. However, the control group was not different from the chlorogenic acid-treated group （P 〉 0.05）. At day 7 following intervention, the number of correct responses in the Y-maze test was greater in the chlorogenic acid-treated group than in the model group. CONCLUSION： Chlorogenic acid protects kainic acid-induced injury to nNOS-positive neurons in the hippocampal CA1-4 regions, thereby ameliorating learning and memory impairment.

Nacre extract prevents scopolamine-induced memory deficits in rodents

Objective: To investigate whether the extract from the nacreous layer of pearl oysters(nacre extract) improves impairments in memory caused by scopolamine administration in rodents.Methods: Nacre extract was prepared from the inner shell layer of pearl oyster. Effects of nacre extract on scopolamine-induced memory impairment were estimated using novel object recognition test, Y-maze test, and Barnes maze test Effect of nacre extract on mRNA expressions which are genes associated with memory in the hippocampus was investigated using semi-quantitative reverse transcription polymerase chain reaction(RT-PCR) analysis.Results: Administration of nacre extract led to the protection against scopolamine-induced impairments in object recognition, short-term memory, and spatial memory. Treatment with nacre extract reversed the mRNA expression of brain-derived neurotrophic factor(BDNF) and Homer protein homolog 1(Homer-1 a) in the hippocampus, which decreased with the treatment of scopolamine. Conclusions: These results suggest that nacre extract has attenuating effects on memory impairments induced by scopolamine through the increase in mRNA expression of BDNF and Homer-1 a.

Neuropsychological Assessment of Learning and Memory in Rats Following Ketamine Exposure during Late Adolescence

With the prevalent issue of drug abuse in society, research regarding the effects of ketamine, a drug frequently abused by youth in club settings, has increased. Despite its potential for misuse, ketamine has demonstrated potential as a fast-acting antidepressant and seems to work well for relieving treatment-resistant depression. However, previous research has shown ketamine use may cause impairments in frontal and medial temporal lobe functioning, leading to problems with memory. While under the influence of ketamine, individuals also display problems with spatial working memory when compared to individuals not dosed with ketamine. The majority of previous research has examined the short-term impact of ketamine use with studies on neurodevelopment largely confined to postnatal exposure. In the present study, the long-term effects on memory caused by repeated ketamine exposure during late adolescence were examined. Rats were used as nonhuman models in order to investigate the cognitive risks resulting from chronic use of ketamine. The results indicated that low-ketamine dosed rats demonstrated significantly better spatial memory recall compared to high-ketamine dosed rats. In addition, high-ketamine dosed rats appeared to struggle more with working memory than the rats in the low-ketamine and control groups. Similarly, both drug groups showed significantly more working memory and reference memory errors than the control group. This indicates that higher doses of ketamine during late adolescence may cause working and spatial memory impairments later in life.

Effects of polygonatum sibiricum polysaccharide on learning and memory in a scopolamine-induced mouse model of dementia

BACKGROUND： Learning and memory processes are accompanied by complex neuropathological and biochemical changes. Free radicals play an important role in learning and memory damage. OBJECTIVE： To observe the effects of polygonatum sibiricum polysaccharide （PSP） in comparison with vitamin 12 on inhibiting free radical damage, as well as improving the degree of cerebral ischemia and learning and memory in a scopolamine-induced mouse model of dementia. DESIGN： Randomized controlled animal study. SETTINGS： Department of Pharmacology, Taishan Medical College; Shandong Jewim Pharmaceutical Co., Ltd. MATERIALS： A total of 105 healthy Kunming mice, comprising 90 males and 15 females that were clean grade, were provided by the Animal Center of Taishan Medical College. PSP （extracted and purified by Huangjing, Taishan） was provided by the Department of Traditional Chinese Medicine, Taishan Medical College （purity of 79.6% by using a phenol-concentrated sulphate acid method）, and hydrogen bromine acid scopolamine injection solution （SCO） by Shanghai Hefeng Pharmaceutical Co., Ltd. METHODS： This study was performed at the Pharmacological Laboratory of Taishan Medical College from March to June 2007. （1） A total of 75 healthy Kunming male mice of clean grade were randomly divided into a normal control group, positive control group, and low-dosage and high-dosage PSP groups, with 15 mice in each group. Mice in both the low-dosage and high-dosage PSP groups were intragastrically administered 0.5 g/kg and 2.0 g/kg PSP, respectively. Mice in the positive control group were intragastrically administered 0.5 g/kg vitamin 12. In addition, mice in both the normal control group and model group were intragastrically administered the same volume of saline, respectively, once a day for 7 consecutive days. One hour after the final administration on day 6, mice in the positive control group, model group, low-dosage and high-dosage PSP groups were subcutaneously injected with 3.0 mg/kg SCO, while mice in the normal control group were subcutaneously injected with the same volume of distilled water. Ten minutes later, the step test was employed to measure memory. The training was performed 5 times, with 30-minute intervals between 2 sets. If the mice remained on the platform （latent period） for 30 minutes, they were determined to have learned the task. An eligible percentage was then recorded. Twenty-four hours later, the number of error responses from each mouse was recorded in a 5-minute period, based on the above-mentioned parameters. Mice were sacrificed under anesthesia. The activities of glutathione hyperoxide enzyme （GSH-Px）, superoxide dismutase （SOD）, and the content of malondialdehyde （MDA） were assayed using an UV spectrophotometer. （2） The remaining 30 healthy Kunming mice of both genders were randomly divided into 3 groups, including control group, low-dosage PSP group, and high-dosage PSP group, with 10 mice in each group. Mice in both the low-dosage and high-dosage PSP groups were intragastrically administered 0.5 g/kg and 2.0 g/kg PSP, respectively, while the mice in the control group were perfused with the same volume of saline. Forty minutes later, the mice under superficial anesthesia were decapitated, and the number and duration of mouth-opening breaths of the isolated mouse head were immediately recorded. MAIN OUTCOME MEASURE： （1） Numbers of error responses within 5 minutes on the platform. （2） GSH-Px and SOD activity, as well as MDA content in mouse brain tissue. （3） Numbers and duration of mouth-opening breaths of the isolated mouse head. RESULTS： Of the 105 Kunming experimental mice, two mice died due to electric shock during the step-down test, therefore, a total of 103 mice were involved in the final analysis. （1） Effects of PSP on learning in mice： The eligible percentage in the high-dosage PSP group was higher than the control group at the 3rd and 5th training sessions （P 〈 0.05）. （2） Effects of PSP on memory in mice： The number of errors in the step-down test in the model group was higher than in the normal control group （P 〈 0.01）. Compared to the model group, the number of errors in the step-down test was lower in both the low-dosage and high-dosage PSP groups （P 〈 0.01）. （3） Effects of PSP on amount of GSH-Px, SOD, and MDA in mouse brain tissue： SOD and GSH-Px activity was higher in both the low-dosage and high-dosage PSP groups than in the model group. MDA content was lower in the high-dosage PSP group, compared to the model group. GSH-Px activity in the brain tissue of the high-dosage PSP group was similar to the positive control group （P 〉 0.05）. （4） Effects of PSP on acute cerebral ischemia in mice： The low-dosage PSP, and in particular the high-dosage PSP, prolonged the number and duration of mouth-opening breaths of the isolated mouse head （P 〈 0.05, 0.01）. CONCLUSION： PSP can improve learning and memory in a scopolamine-induced mouse model of dementia by reducing the damaging effects of cerebral ischemia and anti-oxidation. In addition, the effects are dose-dependent and are similar to those provided by vitamin E.

Senktide blocks aberrant RTN3 interactome to retard memory decline and tau pathology in social isolated Alzheimer’s disease mice

Sporadic or late-onset Alzheimer’s disease(LOAD)accounts for more than 95%of Alzheimer’s disease(AD)cases without any family history.Although genome-wide association studies have identified associated risk genes and loci for LOAD,numerous studies suggest that many adverse environmental factors,such as social isolation,are associated with an increased risk of dementia.However,the underlying mechanisms of social isolation in AD progression remain elusive.In the current study,we found that 7 days of social isolation could trigger pattern separation impairments and presynaptic abnormalities of the mossy fibre-CA3 circuit in AD mice.We also revealed that social isolation disrupted histone acetylation and resulted in the downregulation of 2 dentate gyrus(DG)-enriched miRNAs,which simultaneously target reticulon 3(RTN3),an endoplasmic reticulum protein that aggregates in presynaptic regions to disturb the formation of functional mossy fibre boutons(MFBs)by recruiting multiple mitochondrial and vesicle-related proteins.Interestingly,the aggregation of RTN3 also recruits the PP2A B subunits to suppress PP2A activity and induce tau hyperphosphorylation,which,in turn,further elevates RTN3 and forms a vicious cycle.Finally,using an artificial intelligence-assisted molecular docking approach,we determined that senktide,a selective agonist of neurokinin3 receptors(NK3R),could reduce the binding of RTN3 with its partners.Moreover,application of senktide in vivo effectively restored DG circuit disorders in socially isolated AD mice.Taken together,our findings not only demonstrate the epigenetic regulatory mechanism underlying mossy fibre synaptic disorders orchestrated by social isolation and tau pathology but also reveal a novel potential therapeutic strategy for AD.