Association Analysis of Gut Microbiota and Prognosis of Patients with Acute Ischemic Stroke in Basal Ganglia Region.

Previous studies have implied the potential impact of gut microbiota on acute ischemic stroke (AIS), but the relationships of gut microbiota with basal ganglia region infarction (BGRI) and the predictive power of gut microbiota in BGRI prognosis is unclear. The aim of this study was to ascertain characteristic taxa of BGRI patients with different functional outcomes and identify their predictive value. Fecal samples of 65 BGRI patients were collected at admission and analyzed with 16s rRNA gene sequencing. Three-month functional outcomes of BGRI were evaluated using modified Rankin Scale (mRS), and patients with mRS score of 0-1 were assigned to good-BGRI group while others were assigned to poor-BGRI group. We further identified characteristic microbiota using linear discriminant analysis effect size, and receiver operating characteristic (ROC) curve was used to determine the predictive value of differential bacteria. According to the mRS score assessed after 3 months of stroke onset, 22 patients were assigned to poor-BGRI group, while 43 patients were assigned to good-BGRI group. Short chain fatty acids-producing bacteria, Romboutsia and Fusicatenibacter, were characteristic microbiota of the good-BGRI group, while pro-inflammatory taxa, Acetanaerobacterium, were characteristic microbiota of the poor-BGRI group. Furthermore, the differential bacteria showed extensive associations with clinical indices. ROC curves, separately plotted based on Romboutsia and Fusicatenibacter, achieved area under the curve values of 0.7193 and 0.6839, respectively. This study identified the efficient discriminative power of characteristic microbiota in BGRI patients with different outcomes and provided novel insights into the associations of gut microbiota with related risk factors.

Epigenome-wide DNA methylation analysis of myasthenia gravis.

Myasthenia gravis (MG) is a common neuromuscular junction disorder and autoimmune disease mediated by several antibodies. Several studies have shown that genetic factors play an important role in MG pathogenesis. To gain insight into the epigenetic factors affecting MG, we report here genome-scale DNA methylation profiles of MG. DNA was extracted from eight MG patients and four healthy controls for genome-wide DNA methylation analysis using the Illumina HumanMethylation 850K BeadChip. Verification of pyrosequencing was conducted based on differential methylation positions. Subsequently, C2C12 and HT22 cell lines (derived from mouse) were treated with demethylation drugs. Transcribed mRNA of the screened differential genes was detected using quantitative real-time PCR. The control and MG group were compared, and two key probe positions were selected. The corresponding genes were CAMK1D and CREB5 (P < 0.05). Similarly, the myasthenic crisis (MC) and non-MC group were compared and four key probe positions were selected. The corresponding genes were SAV1, STK3, YAP1, and WWTR1 (P < 0.05). Subsequently, pyrosequencing was performed for verification, revealing that hypomethylation of CAMK1D was significantly different between the MG and control group (P < 0.001). Moreover, transcription of CREB5, PKD, YAP1, and STK3 genes in the C2C12 cells was downregulated (P < 0.05) after drug treatment, but only YAP1 mRNA was downregulated in HT22 cells (P < 0.05). This is the first study to investigate genome-scale DNA methylation profiles of MG using 850 K BeadChip. The identified molecular markers of methylation may aid in the prevention, diagnosis, treatment, and prognosis of MG.

Gut microbiota alterations are associated with functional outcomes in patients of acute ischemic stroke with non-alcoholic fatty liver disease.

Introduction: Patients with acute ischemic stroke (AIS) with non-alcoholic fatty liver disease (NAFLD) frequently have poor prognosis. Many evidences suggested that the changes in gut microbiota may play an important role in the occurrence and development of AIS patients with NAFLD. The purpose of this study was to explore microbial characteristics in patients of AIS with NAFLD, and the correlation between gut microbiota and functional outcomes. Methods: The patients of AIS were recruited and divided into NAFLD group and non-NAFLD group. The stool samples and clinical information were collected. 16 s rRNA sequencing was used to analyze the characteristics of gut microbiota. The patients of AIS with NAFLD were followed-up to evaluate the functional outcomes of disease. The adverse outcomes were determined by modified Rankin scale (mRS) scores at 3 months after stroke. The diagnostic performance of microbial marker in predicting adverse outcomes was assessed by recipient operating characteristic (ROC) curves. Results: Our results showed that the composition of gut microbiota between non-NAFLD group and NAFLD group were different. The characteristic bacteria in the patients of AIS with NAFLD was that the relative abundance of Dorea, Dialister, Intestinibacter and Flavonifractor were decreased, while the relative abundance of Enorma was increased. Moreover, the characteristic microbiota was correlated with many clinical parameters, such as mRS scores, mean arterial pressure and fasting blood glucose level. In addition, ROC models based on the characteristic microbiota or the combination of characteristic microbiota with independent risk factors could distinguish functional dependence patients and functional independence patients in AIS with NAFLD (area under curve is 0.765 and 0.882 respectively). Conclusion: These findings revealed the microbial characteristics in patients of AIS with NAFLD, and further demonstrated the predictive capability of characteristic microbiota for adverse outcomes in patients of AIS with NAFLD.

Gut microbiota signature as predictors of adverse outcomes after acute ischemic stroke in patients with hyperlipidemia.

Introduction: The alterations of gut microbiota have been associated with multiple diseases. However, the relationship between gut microbiota and adverse outcomes of hyperlipidemic stroke patients remains unclear. Here we determined the gut microbial signature to predict the poor outcome of acute ischemic stroke (AIS) with hyperlipidemia (POAH). Methods: Fecal samples from hyperlipidemic stroke patients were collected, which further analyzed by 16s rRNA gene sequencing. The diversity, community composition and differential gut microbiota were evaluated. The adverse outcomes were determined by modified Rankin Scale (mRS) scores at 3 months after admission. The diagnostic performance of microbial characteristics in predicting adverse outcomes was assessed by receiver operating characteristic (ROC) curves. Results: Our results showed that the composition and structure of gut microbiota between POAH patients and good outcome of AIS with hyperlipidemia (GOAH) patients were different. The characteristic gut microbiota of POAH patients was that the relative abundance of Enterococcaceae and Enterococcus were increased, while the relative abundance of Lachnospiraceae, Faecalibacterium, Rothia and Butyricicoccus were decreased. Moreover, the characteristic gut microbiota were correlated with many clinical parameters, such as National Institutes of Health Stroke Scale (NIHSS) score, mean arterial pressure, and history of cerebrovascular disease. Moreover, the ROC models based on the characteristic microbiota or the combination of characteristic microbiota with independent risk factors could distinguish POAH patients and GOAH patients (area under curve is 0.694 and 0.971 respectively). Conclusions: These findings revealed the microbial characteristics of POAH, which highlighted the predictive capability of characteristic microbiota in POAH patients.

Effect of Probiotic Fungi against Cognitive Impairment in Mice via Regulation of the Fungal Microbiota-Gut-Brain Axis.

The fungal microbiota may be involved in the regulation of cognition and behavior, while the role of probiotic fungi against cognitive impairment is unclear. Here, we explored the idea that probiotic Saccharomyces boulardii could participate in the regulation of microglia-induced neuroinflammation in Alzheimer's disease (AD) model mice. Cognitive deficits, deposits of amyloid-ß (Aß) and phosphorylation of tau, synaptic plasticity, microglia activation, and neuroinflammatory reactions were observed. The expression levels of Toll-like receptors (TLRs) pathway-related proteins were detected. Meanwhile, intestinal barrier integrity and fungal microbiota composition were evaluated. Our results showed fungal microbiota dysbiosis in APP/PS1 mice, which might result in the neuroinflammation of AD. The increased levels of interleukin (IL)-6, IL-1ß, and cluster of differentiation 11b (CD11b) were observed in APP/PS1 mice, which were associated with activation of microglia, indicative of a broader recognition of neuroinflammation mediated by fungal microbiota compared to hitherto appreciated. Probiotic S. boulardii treatment improved dysbiosis, alleviated the neuroinflammation as well as synaptic injury, and ultimately improved cognitive impairment. Moreover, S. boulardii therapy could inhibit microglia activation and the TLRs pathway, which were reversed by antifungal treatment. These findings revealed that S. boulardii actively participated in regulating the TLRs pathway to inhibit the neuroinflammation via the gut-brain axis.

MiR-10b-3p Protects Cerebral I/R Injury through Targeting Programmed Cell Death 5 (PDCD5).

Previous studies have demonstrated that miR-10b-3p is significantly downregulated in rats after cerebral ischemia injury, and this study aimed to investigate the effect of miR-10b-3p in cerebral ischemia/reperfusion (I/R) injury. The oxygen-glucose deprivation (OGD) induced SH-SY5Y cell model and middle cerebral artery occlusion model (MCAO) rats were constructed to investigate the role of miR-10b-3p and underline the regulatory mechanism of miR-10b-3p/PDCD5 axis in cerebral I/R injury. The expression of miR-10b-3p and PDCD5 was evaluated by qRT-PCR and Western blot. The binding relationship between miR-10b-3p and PDCD5 was determined by bioinformatic analysis and luciferase reporter assay. Cell proliferation was evaluated by MTT assay and Edu staining assay. The apoptosis was assessed by TUNEL staining assay and flow cytometry. MiR-10b-3p was significantly downregulated and PDCD5 was upregulated both in OGD/R induced SH-SY5Y cells and the brain tissues of MCAO/R rats. Luciferase reporter assay determined that miR-10b-3p could directly bind to the 3' UTR of PDCD5 and negatively regulate its expression. MiR-10b-3p overexpression could efficiently inhibit cell viability and proliferation, induce apoptosis of OGD/R-induced SH-SY5Y cells in vitro, and attenuate cerebral I/R injury of MCAO rats in vivo. Silencing of PDCD5 showed similar effect to miR-10b-3p mimics, while PDCD5 overexpression significantly reversed the protective effects of miR-10b-3p mimics on cerebral I/R injury. In summary, our results revealed that miR-10b-3p alleviated cerebral I/R injury partly through targeting PDCD5 and indicated that miR-10b-3p might be a potential target for ischemic stroke.

A clinical appraisal of the different types of enteral nutrition support and humanized nursing among cerebral apoplexy ICU patients on mechanical ventilation.

OBJECTIVE: To study the clinical effectiveness of different types of enteral nutrition support combined with humanized nursing in intensive care unit (ICU) stroke patients on mechanical ventilation. METHODS: One hundred patients with stroke admitted to our hospital's ICU from April 2019 to July 2020 were established as the study cohort and divided into a control group and an experimental group, with 50 cases in each group. The control group was administered one-time injections of enteral nutrition combined with general nursing, and the experimental group was administered enteral nutrition pump infusions combined with humanized nursing. The nursing efficiency, the nursing satisfaction, the Barthel index (BI) scores, the National Institutes of Health Stroke Scale (NIHSS) scores, the adverse reactions, the serum albumin, serum total protein, and serum prealbumin levels, the ICU stay durations, the hospital stay durations, and the mini-nutritional assessment (MNA) scores at 1, 2, and 3 weeks were compared between the two groups. RESULTS: Compared with the control group, the nursing efficiency and satisfaction levels, the BI index scores, the serum albumin, serum total protein, serum pre-albumin levels and the MNA nutritional evaluation scores at weeks 1, 2, and 3 in the experimental group were significantly higher (P < 0.05), while the NIHSS scores, the adverse reactions, the time costs in the ICU and the hospital stay durations were significantly lower, with statistical significance (P < 0.05). CONCLUSION: Humanized nursing combined with enteral nutrition pumping can remarkably improve the quality of life and the malnutrition in ICU stroke patients on mechanical ventilation.

A comparative analysis of 375 patients with lateral and medial medullary infarction.

BACKGROUND: Few studies have compared the etiology and clinical features between pure lateral medullary infarction (LMI) and pure medial medullary infarction (MMI). METHODS: All patients included were hospitalized at The First Affiliated Hospital and The Second Affiliated Hospital of Wenzhou Medical University from January 2015 to July 2020. Their risk factors, clinical manifestation, stroke mechanisms and short-term prognosis were analyzed retrospectively. RESULTS: Among the 387 patients enrolled, 266 (68.7%) had LMI, 109 (28.2%) had MMI, and 12 (3.1%) (nine men and three women) had LMI plus MMI. We analyzed the 375 patients of LMI and MMI. The average ages of LMI and MMI were 59.4 years and 62.69 years, respectively. Univariate analysis and multivariable logistic regression was used to investigate the existing risk factors of MMI relative to LMI. Prior infarction, poor glycemic control, and atherosclerosis were more frequently associated with MMI than with LMI. The clinical manifestation was significantly different between LMI and MMI. We used modified Rankin Scale (mRS) score as the short-term prognostic evaluation criteria, and MMI appeared worse than LMI. CONCLUSIONS: This study reveals that: (1) patients with MMI are older than those with LMI; (2) prior infarction, poor glycemic control, and atherosclerosis are independent risk factors of MMI than that of LMI; (3) the clinical manifestations of LMI and MMI are heterogeneous; (4) short-term prognosis of MMI is worse than LMI.

Combination of Vinpocetine and Dexamethasone Alleviates Cognitive Impairment in Nasopharyngeal Carcinoma Patients following Radiation Injury.

BACKGROUND: Nasopharyngeal carcinoma (NPC) originates in the nasopharyngeal epithelium. The most common treatments for NPC rT1-4 are radiotherapy and surgery. The pathogenesis of radiation-induced cognitive impairment is complex and includes oxidative stress, mitochondrial dysfunction, neuro-inflammation, and even apoptosis and cell death. Principally, toll-like receptors (TLRs) could regulate the inflammatory/anti-inflammatory balance in patients with radiation-induced brain injury. Vinpocetine has an anti-inflammatory effect as shown in both animal and in vitro studies. Also, dexamethasone is a widely used anti-inflammatory drug. Thus, it is important to test whether addition of vinpocetine could improve the anti-inflammatory properties of dexamethasone for the treatment of NPC patients with radiation-induced brain injuries. METHODS: A total of 60 NPC patients with radiation-related brain injury were recruited for this study. All subjects were randomly and blindly assigned to the following groups: the dexamethasone group (D group, n = 30) and the vinpocetine and dexamethasone group (VD group, n = 30). Both medicine treatments were uninterrupted for 14 days of administration. RESULTS: Combined administration of vinpocetine and dexamethasone lowered the expression levels of serum inflammatory cytokines, including TLR2, TLR4, interleukin (IL)-20, IL-8, tumor necrosis factor-α, interferon-γ, monocyte chemoattractant protein 2, and interferon-induced protein 20, when compared to dexamethasone monotherapy. Notably, combination therapy increased antioxidants (superoxide dismutase, glutathione, glutathione peroxidase, and glutathione reductase) and decreased oxidants (thiobarbituric acid reactive substances). Furthermore, combination therapy significantly increased the Mini Mental State Examination score, when compared to dexamethasone monotherapy. CONCLUSION: Administration of a combination of vinpocetine and dexamethasone may enhance the anti-inflammatory and anti-oxidative effects when compared to dexamethasone monotherapy, which leads to alleviated cognitive impairment in NPC patients with radiation injury.

A homozygous mutation of alanyl-transfer RNA synthetase 2 in a patient of adult-onset leukodystrophy: A case report and literature review.

INTRODUCTION: Leukodystrophy is a group of hereditary leukoencephalopathies predominantly affecting the white matter. Multiple genes and mutations have been reported to be associated with this disorder. Identification of pathogenic genes can facilitate diagnosis of leukodystrophy and development of therapeutic strategies. METHODS: A case was presented with clinical examinations. Exome sequencing was applied to identify potential mutations. Sanger sequencing of blood DNA was applied to confirm the mutation and to examine additional members. RESULTS: We reported a Chinese male patient of adult-onset leukodystrophy. Genetic examinations identified a homozygous mutation, c. 452T>C (p. M151T), in alanyl-tRNA synthetase 2 (AARS2) in the patient. The disease was autosomal recessive as suggested by the genotypic analyses of his family members. We also reviewed phenotypic spectra of AARS2 mutation-associated leukodystrophies from a total of 16 reported cases. CONCLUSIONS: Our data provide further evidence that mutations of AARS2 are implicated in adult-onset leukodystrophy.

Mitochondrial DNA variants modulate genetic susceptibility to Parkinson's disease in Han Chinese.

It is well recognized that mitochondrial dysfunction is involved in the pathogenesis of Parkinson's disease (PD). The mtDNA displacement loop (D-loop) region is known to accumulate structural alterations and mutations. To understand how mtDNA variants contribute to the susceptibility to sporadic PD in Chinese, a total of 500 PD patients and 505 controls were recruited from East China, and their D-loop regions were sequenced. A total of 389 variants were detected out of the 1005 subjects. There were 91 variants with frequencies >1%, which included 88 single nucleotide polymorphisms (SNPs), 2 deletions and 1 insertion. Amongst, 6 SNPs were significantly associated with sporadic PD. Specifically, the SNPs 151T/C, 189G/A, 16086C/T and 16271C/T contributed to increased susceptibility, while 318C/T and 16134T/C were associated with reduced risk for PD. Further analyses of mtDNA haplogroups and their risk for PD occurrence showed that subjects carrying haplogroup A5 were susceptible while haplogroup B5 carriers were more resistant to the disease. In summary, our study for the first time systematically analyzed mtDNA variants by sequencing the D-loop region in a Chinese population to understand their associations with PD. These results demonstrate that mtDNA variants modulate risk for sporadic PD.

Paramedian Thalamic Ischemic Infarction: A Retrospective Clinical Observation.

BACKGROUND: The study aimed to evaluate the clinical features in patients with bilateral and unilateral paramedian thalamic infarcts. METHODS: Twenty-one patients with paramedian thalamic infarcts were included, and their case records were reviewed. We focused on the patients' neuroimaging and neurological symptoms including the duration of coma, vertical gaze palsy, and memory impairment. The causes of bilateral and unilateral paramedian thalamic infarcts were also investigated. RESULT: Nine patients had bilateral paramedian thalamic infarcts and 12 patients had unilateral lesions. As an initial symptom, coma had occurred in 5 patients with bilateral lesions and 4 patients with unilateral lesions. Bilateral vertical gaze palsy and memory impairment were found in both groups. Most of them recovered well, except 1 patient who died due to bilateral thalamic paramedian infarction. CONCLUSIONS: Our results show that both bilateral and unilateral paramedian thalamic infarcts can cause coma, vertical gaze palsy, and memory impairment. This may promote our understanding of paramedian thalamic infarction.

Meta-analysis of brain iron levels of Parkinson's disease patients determined by postmortem and MRI measurements.

Brain iron levels in patients of Parkinson's disease (PD) are usually measured in postmortem samples or by MRI imaging including R2* and SWI. In this study we performed a meta-analysis to understand PD-associated iron changes in various brain regions, and to evaluate the accuracy of MRI detections comparing with postmortem results. Databases including Medline, Web of Science, CENTRAL and Embase were searched up to 19th November 2015. Ten brain regions were identified for analysis based on data extracted from thirty-three-articles. An increase in iron levels in substantia nigra of PD patients by postmortem, R2* or SWI measurements was observed. The postmortem and SWI measurements also suggested significant iron accumulation in putamen. Increased iron deposition was found in red nucleus as determined by both R2* and SWI, whereas no data were available in postmortem samples. Based on SWI, iron levels were increased significantly in the nucleus caudatus and globus pallidus. Of note, the analysis might be biased towards advanced disease and that the precise stage at which regions become involved could not be ascertained. Our analysis provides an overview of iron deposition in multiple brain regions of PD patients, and a comparison of outcomes from different methods detecting levels of iron.

Effect of Extracellular Vesicles on Neural Functional Recovery and Immunologic Suppression after Rat Cerebral Apoplexy.

BACKGROUND: Previous studies have demonstrated that mesenchymal stem cells (MSCs) can promote the recovery of neural function after cerebral apoplexy by secreting multiple cytokines. In addition, cell factor-derived extracellular vesicles play an important role in recovery of neural function. The aim of this study was to determine the effect of extracellular vesicles on neural functional recovery and brain tissue remodeling after cerebral apoplexy in a rat model. METHODS: The rat models with local ischemic stroke was established and three random groups were created. In groups A and B, human bone marrow-derived MSCs and MSC-derived extracellular vesicles were transplanted into rats. In the control group (group C), only normal saline was injected. Then, we evaluated motor coordination ability, pathologic changes of the brain, immune responses in the central and peripheral nervous systems, regeneration of blood vessels, and nervous tissue in 4 weeks after cerebral apoplexy. RESULTS: Obvious regeneration of blood vessels and nervous tissues were identified in groups A and B. There was no significant difference with respect to coordination between groups A and B, but coordination in groups A and B was significantly better than the control group. Immunohistochemical staining of brain tissue showed that extracellular vesicles exerted no effect on infiltration of immune cells in the central nervous system. Weakened immune suppression was noted 1 week after cerebral apoplexy, which provided a favorable environment for remodeling of brain tissue. CONCLUSION: MSC-derived extracellular vesicles accelerated neural functional recovery after cerebral apoplexy. The weakened immune suppression was beneficial to remodeling of brain tissue.

Selenotranscriptomic Analyses Identify Signature Selenoproteins in Brain Regions in a Mouse Model of Parkinson's Disease.

Genes of selenoproteome have been increasingly implicated in various aspects of neurobiology and neurological disorders, but remain largely elusive in Parkinson's disease (PD). In this study, we investigated the selenotranscriptome (24 selenoproteins in total) in five brain regions (cerebellum, substantia nigra, cortex, pons and hippocampus) by real time qPCR in a two-phase manner using a mouse model of chronic PD. A wide range of changes in selenotranscriptome was observed in a manner depending on selenoproteins and brain regions. While Selv mRNA was not detectable and Dio1& 3 mRNA levels were not affected, 1, 11 and 9 selenoproteins displayed patterns of increase only, decrease only, and mixed response, respectively, in these brain regions of PD mice. In particular, the mRNA expression of Gpx1-4 showed only a decreased trend in the PD mouse brains. In substantia nigra, levels of 17 selenoprotein mRNAs were significantly decreased whereas no selenoprotein was up-regulated in the PD mice. In contrast, the majority of selenotranscriptome did not change and a few selenoprotein mRNAs that respond displayed a mixed pattern of up- and down-regulation in cerebellum, cortex, hippocampus, and/or pons of the PD mice. Gpx4, Sep15, Selm, Sepw1, and Sepp1 mRNAs were most abundant across all these five brain regions. Our results showed differential responses of selenoproteins in various brain regions of the PD mouse model, providing critical selenotranscriptomic profiling for future functional investigation of individual selenoprotein in PD etiology.

Paroxetine ameliorates lipopolysaccharide-induced microglia activation via differential regulation of MAPK signaling.

BACKGROUND: Paroxetine, a selective serotonin reuptake inhibitor for counteracting depression, has been recently suggested as having a role in prevention of dopaminergic neuronal degeneration in substantia nigra, a hallmark of Parkinson's disease (PD). The pathogenesis of this type of neurological disorders often involves the activation of microglia and associated inflammatory processes. Thus in this study we aimed to understand the role of paroxetine in microglia activation and to elucidate the underlying mechanism(s). METHODS: BV2 and primary microglial cells were pretreated with paroxetine and stimulated with lipopolysaccharide (LPS). Cells were assessed for the responses of pro-inflammatory mediator and cytokines, and the related signaling pathways were evaluated and analyzed in BV2 cells. RESULTS: Paroxetine significantly inhibited LPS-induced production of nitric oxide (NO) and pro-inflammatory cytokines such as TNF-α and IL-1ß. Further analysis showed inducible nitric oxide synthase (iNOS) and mRNA expression of TNF-α and IL-1ß were attenuated by paroxetine pretreatment. Analyses in signaling pathways demonstrated that paroxetine led to suppression of LPS-induced JNK1/2 activation and baseline ERK1/2 activity, but had little effect on the activation of p38 and p65/NF-κB. Interference with specific inhibitors revealed that paroxetine-mediated suppression of NO production was via JNK1/2 pathway while the cytokine suppression was via both JNK1/2 and ERK1/2 pathways. Furthermore, conditioned media culture showed that paroxetine suppressed the microglia-mediated neurotoxicity. CONCLUSIONS: Paroxetine inhibits LPS-stimulated microglia activation through collective regulation of JNK1/2 and ERK1/2 signaling. Our results indicate a potential role of paroxetine in neuroprotection via its anti-neuroinflammatory effect besides targeting for depression.

CCDC62 variant rs12817488 is associated with the risk of Parkinson's disease in a Han Chinese population.

It has been recently proposed by a genome-wide association study (GWAS) meta-analysis that the CCDC62 variant rs12817488 is a new risk locus associated with Parkinson's disease (PD). In this study, we aimed to investigate the association between rs12817488 and PD in a Chinese cohort. A total of 341 PD patients and 423 matched controls were recruited in Eastern China. Our results showed that the A allele of rs12817488 was significantly associated with an aggravated risk of PD (p = 0.006) and represented a major allele in contrast to a minor one in Caucasians. Genotype distributions also differed between PD patients and controls (p = 0.011 for AA/AG/GG). Further analysis showed that the association of rs12817488 with PD only existed in females. We also investigated the protein level of CCDC62 in peripheral blood mononuclear cells from 41 AA or GG carriers and found an apparently higher expression in PD patients carrying the AA genotype. A potential interaction was found between two estrogen-related loci, i.e. rs12817488/CCDC62 and rs2697962/PRDM2, particularly in the female stratum. In conclusion, our study demonstrated for the first time a significant association between the rs12817488 polymorphism and PD predisposition in a Chinese population with gender variations and provides new insight regarding the variant's protein expression and estrogen-related genetic interaction.

[Effects of chronic hypoxic hypercapnia on spatial learning-memory and expression of NMDAR1 in rats].

AIM: To explore the effect of chronic hypoxic hypercapnia on learning-memory and the possible mechanisms involved. METHODS: Fifty-eight male SD rats were randomly divided into three groups: Normal control group (NC, n=18), 2-week (2HH, n=18), and 4-week hypoxic hypercapnia (4HH, n=20) group. The rats, spatial learning-memory tasks were assessed by the Morris water maze. The expression of NMDAR1mRNA was determined by hybridization in situ. RESULTS: Compared with NC group, rats exposed to chronic hypoxic hypercapnia displayed significant impairment in their performance assessed by two measures: mean escape latencies (2HH: 38.59 +/- 8.35 s, 4HH: 60.59 +/- 17.28 s) and swim path distances(2HH: 9893.45 +/- 1958.16 mm, 4HH: 18077.57 +/- 6878.85 mm). The expression level of NMDAR1mRNA in the hippocampus and cortex were lower than those in the NC group, especially, the NMDAR1mRNA expression of hippocampus CA1 in 4HH decreased by 21.4% (P < 0.01). CONCLUSION: Chronic hypoxic hypercapnia could impair the rat spatial learning-memory and the decrease in expression of NMDAR1mRNA might be involved in.