[Mitochondrial calcium uniporter knockdown in hippocampal neurons improved the learning and memory dysfunction of Alzheimer's disease mice].

Alzheimer's disease (AD) is a neurodegenerative disorder, which seriously affects health of the elderly, and is still irreversible up to now. Recent studies have indicated that mitochondrial dysfunction is a direct reason to promote the development of AD. Mitochondrial calcium uniporter (MCU), located in the inner membrane of mitochondria, is a key channel of mitochondrial Ca2+ uptake. Abnormal MCU expression results in imbalance of mitochondrial calcium homeostasis, ultimately leading to mitochondrial dysfunction. The purpose of this study was to determine the effects of MCU knockdown on AD hippocampal neurons and learning and memory function of AD model mice. Lentivirus and adeno-associated virus were used as vectors to transfect shRNA into hippocampal neurons (HT22 cells) and hippocampi of amyloid precursor protein (APP)/presenilin 1 (PS1)/tau AD transgenic mice, respectively, in order to interfere with MCU expression. The cellular activity of HT22 cells was detected by MTS method, and the changes of learning and memory dysfunction in APP/PS1/tau AD transgenic mice were tested by Y maze and Morris water maze. The results showed that MCU knockdown reversed the cellular activity of HT22 cells decreased by amyloid beta protein 1-42 (Aß1-42) or okadaic acid (OA). Knockdown of MCU in hippocampal neurons improved spontaneous alternation (spatial working memory), decreased escape latency, and increased time in target quadrant and number of platform crossing (spatial reference memory) of the APP/PS1/tau mice. This study suggests that MCU knockdown in hippocampal neurons has anti-AD effect, and it is expected to be a new strategy for prevention and treatment of AD.

[Expression of WT1 gene and its isomer ratio changes during phorbol ester induced differentiation of K562 cell line].

OBJECTIVE: To explore the changes in expression of WT1 gene and ration of its isomers during phorbol ester (TPA) induced differentiation of leukemia cell line K562 by fluorescence quantitative RT-PCR and analysis the relationship between different isomers and hematogenic cell differentiation. METHODS: The degree of cellular maturation were verified by NBT reduction test and immunophenotyping. Expression of WT1 gene was determined by fluorescence quantitative RT-PCR during differentiation of K562 cell line. The relative ratio of the four splicing variants WT1 ( + / + ), WT1 ( + / - ), WT1 ( - / + ), WT1 ( - / - ) were calculated. RESULTS: During the differentiation of K562 cell, the NBT reduction rate and the CD9 positive rate both increased significantly (P < 0. 05). The expression of WT1 gene decreased immediately to (1.67 +/- 0.45) x 10(-3) from (4.67 +/- 1.11) x 10(-3), and then increased again to (4.64 +/- 1.53) x 10(-3) at 96 hours. The ratio of WT1 ( + / + ) was decreased gradually, from 0 hour (39.65 +/- 19.46)% to 96 hour (15.25 +/- 7.27)%. While the ratio of WT1( - / - ) was increased, from 0 hour (15.38 +/- 11.34)%, to 96 hour (37.60 +/- 11.90)%. The other two isomers ratios did not change significantly. CONCLUSION: During the TPA induced differentiation of K562 cell, there are two high expression levels of WT1 gene. Before differentiation, the majority is WT1 ( + / + ), and after differentiation, is WT1 ( - / - ). It indicates that WT1 gene may activate or inhibit cell differentiation by regulating the ratio of its four splicing variants.