Misako Kaburagi scite author profile

Misako Kaburagi

5Publications

6Citation Statements Received

64Citation Statements Given

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Tokyo University of Agriculture and Technology

Publications

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Production of a mouse strain with impaired glucose tolerance by systemic heterozygous knockout of the glucokinase gene and its feasibility as a prediabetes model

et al. 2015

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Exon II of glucokinase (Gk) was deleted to produce a systemic heterozygous Gk knockout (Gk+/−) mouse. The relative expression levels of Gk in the heart, lung, liver, stomach, and pancreas in Gk+/− mice ranged from 0.41–0.68 versus that in wild (Gk+/+) mice. On the other hand, its expression levels in the brain, adipose tissue, and muscle ranged from 0.95–1.03, and its expression levels in the spleen and kidney were nearly zero. Gk knockout caused no remarkable off-target effect on the expression of 7 diabetes causing genes (Shp, Hnf1a, Hnf1b, Irs1, Irs2, Kir6.2, and Pdx1) in 10 organs. The glucose tolerance test was conducted to determine the blood glucose concentrations just after fasting for 24 h (FBG) and at 2 h after high-glucose application (GTT2h). The FBG-GTT2h plots obtained with the wild strain fed the control diet (CD), Gk+/− strain fed the CD, and Gk+/− strain fed the HFD were distributed in separate areas in the FBG-GTT2h diagram. The respective areas could be defined as the normal state, prediabetes state, and diabetes state, respectively. Based on the results, the criteria for prediabetes could be defined for the Gk+/− strain developed in this study.

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Evaluation of Activity of RNAi Against Diabetes Related Genes in MIN6 Cells

Kakutani¹,

Kaburagi²,

Matsuoka³

et al. 2012

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Functional role of natural killer T cells in non-obese pre-diabetes model mice

et al. 2017

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Pre-diabetic patients have a high risk of developing diabetes as well as other associated diseases. From the viewpoint of risk assessment and to assist the development of protective therapies, we focused on the functional role of natural killer T (NKT) cells in pre-diabetes. We found that the expression of an NKT cell marker gene, Va14-Ja18, was significantly lower in specific tissues/organs such as adipose tissue and pancreas in non-obese pre-diabetes model mice than in their normal littermates. Subsequently, in the pre-diabetes model mice, Va14-Ja18 was activated with α-galactosylceramide (α-GalCer) and its effect on glucose tolerance was estimated. The simultaneous injection of α-GalCer and lymphocytes improved glucose tolerance with its maximum effect on the 3rd day. An analysis of circulating cytokine levels revealed that interferon-γ, which is a pro-inflammatory cytokine, was secreted only on the 1st day after treatment with α-GalCer and that interleukin (IL)-4, which is an anti-inflammatory cytokine, was secreted from the 1st to the 4th day. The prolonged secretion of IL-4 was thought to substantially contribute to the improvement of glucose tolerance. Based on these results, the functional role of NKT cells in pre-diabetes is to improve metabolic dysfunctions.

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Development of a Protocol for Selection of GenesFit for the <i>In Vivo</i> Knockdown Method and its Application to Insulin Receptor Substrate Genesin Mice

et al. 2013

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Abstract:Prediabetes model mice in which more than one gene associated with diabetes is knocked down simultaneously are potentially useful for pharmaceutical and medical studies of diabetes. However, the effective conditions for sufficient knockdown in vivo are dependent on the intrinsic properties of the target genes. It is necessary to investigate which genes are applicable or not to the in vivo knockdown method. In this study, insulin receptor substrate 1 and 2 (Irs-1, Irs-2) were selected as target genes. Effective siRNAs against the respective genes were designed, and their efficacy was confirmed by cell-based experiments. Based on the results of siRNAs, shRNA expression vectors against Irs-1 and Irs-2 were constructed, respectively. Their efficacy was also confirmed by cell-based experiments. A hydrodynamic method was applied to the delivery of the vectors to mice. This method was found to be effective for predominant delivery to the liver by demonstrative delivery of an EGFP expression vector and successive histochemical analysis. Fifty micrograms of the shRNA expression vector was injected into the tail vein. After 24 h, the liver, pancreas, and muscle were isolated, and the expression levels of Irs-1 and Irs-2 were analyzed by quantitative RT-PCR. In the liver, Irs-2 was effectively knocked down to 60% of the control level, but Irs-1 was not influenced even under the same conditions. The protocol developed here is feasible for the selection of genes fit for in vivo knockdown method.

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In Vivo Delivery of RNAi Reagents into a Mouse

Kaburagi¹,

Kakutani²,

Matsuoka³

et al. 2012

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Misako Kaburagi

Production of a mouse strain with impaired glucose tolerance by systemic heterozygous knockout of the glucokinase gene and its feasibility as a prediabetes model

Evaluation of Activity of RNAi Against Diabetes Related Genes in MIN6 Cells

Functional role of natural killer T cells in non-obese pre-diabetes model mice

Development of a Protocol for Selection of GenesFit for the <i>In Vivo</i> Knockdown Method and its Application to Insulin Receptor Substrate Genesin Mice

In Vivo Delivery of RNAi Reagents into a Mouse

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