Rushsilva3484

Cerebral small vessel disease is a common condition linked to dementia and stroke. As an age-dependent brain pathology, cerebral SVD may share molecular processes with core neurodegenerative diseases such as Alzheimer's and Parkinson's disease. Many neurodegenerative diseases feature abnormal protein accumulation and aberrant protein folding, resulting in multimerization of specific proteins. read more We investigated if a small NOTCH3 N-terminal fragment (NTF) that co-registers with pathologically affected cells in the inherited SVD, CADASIL, is capable of multimerization. We also characterized endogenous small molecule vascular enhancers and inhibitors of multimerization. NTF multimerizes spontaneously and also forms conjugates with vascular catecholamines, including dopamine and norepinephrine, which avidly promote multimerization of the protein. Inhibition of catecholamine-dependent multimerization by vitamin C and reversal by reducing agents implicate an essential role of oxidation in NTF multimerization. Antibodies that react with degenerating arteries in CADASIL tissue preferentially bind to multimerized forms of NTF. These studies suggest that multimerization of proteins in the aging brain is not restricted to neuronal molecules and may participate in age-dependent vascular pathology. Published by Elsevier Inc.Status epilepticus (SE) is a state of prolonged and repeated seizures that can lead to permanent brain damage or life-threatening conditions. Transcranial direct current stimulation (tDCS) non-invasively provides a polarity-specific electric current to modulate brain excitability. Little is known about the therapeutic potential of tDCS in SE. Here, we aim to determine the tDCS effects on seizure severity, EEG and post-SE consequences in rats with kainic acid (KA)-induced SE. Rats were subjected to cathodal tDCS or sham stimulation over the dorsal hippocampus for 5 days. KA was intraperitoneally injected to induce SE. We used continuous video-EEG recording to monitor seizure activity, immunostaining and Timm staining to evaluate neuron counts and mossy fiber sprouting, and ELISA for Brain-derived neurotrophic factor (BDNF) protein measurement. Two featured EEG patterns, gamma ranged high-frequency polyspikes and low-frequency spike-and-wave complexes, were identified in the hippocampal CA1 of KA-induced SE rats. tDCS elicited a significant decrease in severe seizures of Racine stages 4-5 in KA-induced SE rats. tDCS-treated rats manifested diminished high-frequency oscillation during SE, decreased chronic spontaneous spike activities and mossy fiber sproutings compared to sham. tDCS-treated rats also exhibited significantly lower hippocampal BDNF protein levels than sham immediately and 4 weeks after SE. A positive correlation between the hippocampal BDNF level and the seizure severity of SE was found. Altogether, our results show that repeated cathodal tDCS can mitigate seizure severity, alter ictal EEG pattern and reduce the chronic adverse consequences in KA-induced SE rats, supporting the therapeutic potential of tDCS in severe prolonged epileptic seizures. The Loopamp™ Trypanosoma brucei Detection Kit is the latest addition of molecular techniques for amplification of parasite DNA in biological materials. We have evaluated the kit on a number of preparations of crude templates from the blood of experimentally infected rodents, to provide the best option that can be extrapolated to resource-poor healthcare settings where human African trypanosomiasis (HAT) is endemic. We used rodent blood spiked with T. b. brucei at various serial dilutions to test whole blood, that was concentrated by differential lysis of red blood cells (RBCs) followed by centrifugation, or buffy coat samples recovered from whole blood after centrifugation. We also tested crude templates produced after lysis of blood with sodium dodecyl sulphate (SDS) or Triton X, and storage for up to 28 days at room temperature after spotting on filter paper or glass slides. Concentration by RBC lysis provided the highest analytical sensitivity (0.04 trypanosomes/ml), closely followed by the much cheaper SDS at 0.1 trypanosomes/ml sensitivity. We also monitored the persistence of DNA in lysed blood dried onto filter papers by testing them weekly with the LAMP kit and by PCR for the 177bp repeats characteristic of the T. brucei subspecies. At a concentration of 100 trypanosomes/ml, signals indicating presence of parasite DNA could be detected up to week 10, while at 10 trypanosomes/ml detection of signals was limited to week 4. Thus, an ordinary filter paper provides a convenient medium for preservation of trypanosome DNA at ambient conditions for use with the LAMP kit in the short run. Lysis of samples with SDS enhanced sensitivity by facilitating parasite DNA availability. This opens the avenue to incorporate LAMP in routine algorithms for HAT diagnosis and surveillance, as well as for monitoring elimination programs. INTRODUCTION The cosmopolitan protozoan Toxoplasma gondii is a major parasite of warm-blooded animals including man. Early and accurate diagnosis is a must for proper treatment that prevents life threatening sequels. Loop-mediated isothermal amplification (LAMP) is a novel technique that can amplify DNA with high sensitivity and specificity under isothermal conditions. AIM OF THE STUDY To validate a LAMP-specific protocol for detection of Toxoplasma DNA using dried blood spots (DBS) from mice experimentally infected with the cystogenic Toxoplasma ME-49 strain. METHODS In this study, the target DNA fragment was the Toxoplasma 529-bp repeat element that exists in 200-300 copies per T. gondii genome. The sensitivity of both LAMP and conventional PCR techniques was estimated in DBS samples from experimental mice at 1-week and 8-weeks post-infection. RESULTS Out of 20 blood samples gathered on Whatman filter paper from mice at 1-week post-infection, 18 and 16 were positive by LAMP and conventional PCR, respectively. Neither techniques detected parasite DNA in blood at 8th week of infection. CONCLUSION Dried blood spots are easy source of material for molecular studies. LAMP assay proved higher sensitivity than the conventional PCR in detecting parasitemia in early infection with the cystogenic Toxoplasma strain.