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5. Thiamine supplementation modulates oxidative stress by inhibiting hepatic adenosine diphosphate (ADP)-ribosylation in obese diabetic rats

Author

Hitoshi Matsumura, Rie Azuma, Risa Matsui, Takao Tanaka, Hiroto Murase, Eiko Nagata, Yuka Kohda, Junpei Ueda, Yuka Takezoe, Kanta Matsui, and Yuuka Nakatani

Subjects
medicine.medical_specialty, Adenosine diphosphate, chemistry.chemical_compound, Endocrinology, chemistry, business.industry, Internal medicine, ADP-ribosylation, Medicine, Thiamine, business, medicine.disease_cause, Oxidative stress
Published
2019
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10. Streptozotocin-induced diabetic state triggers glucose-dependent insulinotropic polypeptide (GIP) expression in the rat liver

Author

Mikako Matsuo, Hitoshi Matsumura, Chiaki Minamigawa, and Yuka Kohda

Subjects
0301 basic medicine, 03 medical and health sciences, medicine.medical_specialty, 030104 developmental biology, Endocrinology, Chemistry, Internal medicine, Rat liver, medicine, Glucose-dependent insulinotropic polypeptide, Streptozotocin, medicine.drug
Published
2016
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13. Thiamine supplementation modulates oxidative stress by inhibiting hepatic ADP-ribosylation in obese diabetic rats

Author

Rie Azuma, Yuka Kohda, Hitoshi Matsumura, Yuka Takezoe, Junpei Ueda, Yuuka Nakatani, Eiko Nagata, Hiroto Murase, Takao Tanaka, Kanta Matsui, and Risa Matsui

Subjects
medicine.medical_specialty, Endocrinology, Chemistry, Applied Mathematics, General Mathematics, ADP-ribosylation, Internal medicine, medicine, Thiamine, medicine.disease_cause, Oxidative stress
Published
2019
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14. A PKG inhibitor increases Ca2+-regulated exocytosis in guinea pig antral mucous cells: cAMP accumulation via PDE2A inhibition

Author

Yoshinori Marunaka, Hiroko Kuwabara, Saeko Harada, Hitoshi Matsumura, Saori Tanaka, Takashi Nakahari, Rina Tanaka, Yuka Kohda, Yuko Takahashi, Shigenori Ito, Chikao Shimamoto, and Yukinori Sawabe

Subjects
Male, medicine.medical_specialty, Physiology, Guinea Pigs, Biology, Dinoprostone, Exocytosis, Guinea pig, Physiology (medical), Internal medicine, Cyclic AMP, Cyclic GMP-Dependent Protein Kinases, Pyloric Antrum, medicine, Animals, Mucin secretion, Cyclic GMP, Protein Kinase Inhibitors, Antrum, Hepatology, Gastroenterology, Cyclic AMP-Dependent Protein Kinases, Cyclic Nucleotide Phosphodiesterases, Type 2, Acetylcholine, Endocrinology, Gastric Mucosa, Calcium, medicine.drug
Abstract

In antral mucous cells, acetylcholine (ACh, 1 μM) activates Ca2+-regulated exocytosis, consisting of an initial peak that declines rapidly (initial transient phase) followed by a second slower decline (late phase) lasting during ACh stimulation. The addition of 8-bromo-cGMP (8-BrcGMP) enhanced the initial phase, which was inhibited by the protein kinase G (PKG) inhibitor guanosine 3′,5′-cyclic monophosphorothoiate, β-phenyl-1, N2-etheno-8-bromo, Rp-isomer, sodium salt (Rp-8-BrPETcGMPS, 100 nM). However, Rp-8-BrPETcGMPS produced a delayed, but transient, increase in the exocytotic frequency during the late phase that was abolished by a protein kinase A (PKA) inhibitor (PKI-amide), suggesting that Rp-8-BrPETcGMPS accumulates cAMP. The cGMP-dependent phosphodiesterase 2 (PDE2), which degrades cAMP, may exist in antral mucous cells. The PDE2 inhibitor BAY-60-7550 (250 nM) mimicked the effect of Rp-8-BrPETcGMPS on ACh-stimulated exocytosis. Measurement of the cGMP and cAMP contents in antral mucosae revealed that ACh stimulates the accumulation of cGMP and that BAY-60-7550 accumulates cAMP similarly to Rp-8-BrPETcGMPS during ACh stimulation. Analyses of Western blot and immunohistochemistry demonstrated that PDE2A exists in antral mucous cells. In conclusion, Rp-8-BrPETcGMPS accumulates cAMP by inhibiting PDE2 in ACh-stimulated antral mucous cells, leading to the delayed, but transient, increase in the frequency of Ca2+-regulated exocytosis. PDE2 may prevent antral mucous cells from excessive mucin secretion caused by the cAMP accumulation.

Published
2013
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15. Procaterol-stimulated Increases in Ciliary Bend Amplitude and Ciliary Beat Frequency in Mouse Bronchioles

Author

Takashi Nakano, Yoshizumi Takemura, Yuka Kohda, Chikao Shimamoto, Eriko Daikoku, Takashi Nakahari, Yoshinori Marunaka, Nobuyo Komatani-Tamiya, Yoshinobu Iwasaki, and Hitoshi Matsumura

Subjects
Agonist, Axoneme, Time Factors, Bronchiole, Physiology, Procaterol, medicine.drug_class, Video Recording, Dose dependence, In Vitro Techniques, Epithelium, Mice, Cyclic AMP, medicine, Animals, Albuterol, Cilia, Ciliary beating, Adrenergic beta-2 Receptor Agonists, Bronchioles, Lung, Dose-Response Relationship, Drug, Chemistry, Cilium, Anatomy, Microspheres, Mice, Inbred C57BL, medicine.anatomical_structure, Mucociliary Clearance, Time course, cardiovascular system, Biophysics, Calcium, Female, circulatory and respiratory physiology, medicine.drug
Abstract

The beating cilia play a key role in lung mucociliary transport. The ciliary beating frequency (CBF) and ciliary bend amplitude (CBA) of isolated mouse bronchiolar ciliary cells were measured using a light microscope equipped with a high-speed camera (500 Hz). Procaterol (aβ(2)-agonist) increased CBA and CBF in a dose dependent manner via cAMP. The time course of CBA increase is distinct from that of CBF increase: procaterol at 10 nM first increased CBA and then CBF. Moreover, 10 pM procaterol increased CBA, not CBF, whereas 10 nM procaterol increased both CBA and CBF. Concentration-response studies of procaterol demonstrated that the CBA curve was shifted to a lower concentration than the CBF curve, which suggests that CBA regulation is different from CBF regulation. Measurements of microbead movements on the bronchiole of lung slices revealed that 10 pM procaterol increased the rate of ciliary transport by 37% and 10 nM procaterol increased it by 70%. In conclusion, we have shown that increased CBA is of particular importance for increasing the bronchiolar ciliary transport rate, although CBF also plays a role in increasing it.

Published
2012
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16. Protein O-Glycosylation Induces Collagen Expression and Contributes to Diabetic Cardiomyopathy in Rat Cardiac Fibroblasts

Author

Fumio Terasaki, Yuka Kohda, Tatsuji Kono, Miwa Kanematsu, and Takao Tanaka

Subjects
Male, medicine.medical_specialty, Glycosylation, Cardiac fibrosis, Collagen Type I, Diabetes Mellitus, Experimental, chemistry.chemical_compound, Biosynthesis, Glucosamine, Diabetes mellitus, Diabetic cardiomyopathy, Internal medicine, medicine, Animals, Rats, Wistar, Cells, Cultured, Pharmacology, Type III collagen, lcsh:RM1-950, Hexosamines, Fibroblasts, medicine.disease, Rats, carbohydrates (lipids), Endocrinology, Collagen Type III, Glucose, lcsh:Therapeutics. Pharmacology, chemistry, Molecular Medicine, Myocardial fibrosis, lipids (amino acids, peptides, and proteins), Cardiomyopathies
Abstract

Diabetic cardiomyopathy may be accompanied by myocardial fibrosis. We have previously reported that cardiac fibrosis and protein O-glycosylation are elevated in diabetes. In this study, we examined if the hexosamine biosynthesis pathway (HBP) was involved with collagen expression in rat cardiac fibroblasts (RCFs). Long-term glucose load significantly increased type III collagen expression in RCFs, but did not affect the protein O-glycosylation. In addition, glucosamine treatment not only induced expressions of collagen types I and III, but also increased the O-glycosylated protein. These results suggest that O-glycosylation of protein induced by HBP activation modifies collagen expression and contributes to diabetic cardiomyopathy. Keywords:: protein O-glycosylation, collagen gene expression, rat cardiac fibroblast

Published
2009

17. Prevention of incipient diabetic cardiomyopathy by high-dose thiamine

Author

Takao Tanaka, Fumio Terasaki, Tatsuji Kono, Kazuhiko Yamane, Hisashi Shirakawa, Kaoru Otsuka, and Yuka Kohda

Subjects
Blood Glucose, Male, Vitamin, medicine.medical_specialty, Glycosylation, Cardiac fibrosis, Carbohydrate metabolism, Biology, Toxicology, Streptozocin, Diabetes Mellitus, Experimental, chemistry.chemical_compound, Fibrosis, Internal medicine, Diabetic cardiomyopathy, medicine, Animals, Thiamine, Rats, Wistar, Myocardium, food and beverages, Hexosamines, Brain natriuretic peptide, medicine.disease, Rats, Endocrinology, chemistry, Heart failure, Cardiomyopathies
Abstract

Diabetic cardiomyopathy can progress toward overt heart failure with increased mortality. The hexosamine biosynthesis pathway has been implicated in signaling for fibrosis by the kidney. Thiamine (vitamin B(1)) is an indispensable coenzyme and required at intracellular glucose metabolism. In this study, we assessed if decrease of flux through the hexosamine biosynthesis pathway induced by high-dose thiamine therapy counteracts diabetes-induced cardiac fibrosis. The diabetes model used was the streptozotocin-induced diabetic rat. Normal control and diabetic rats were studied for 2 weeks with and without thiamine, and followings were analyzed; plasma biochemicals (total cholesterol and triglycerides), morphological changes, mRNA abundance relevant to cardiac failure (brain natriuretic peptide) and fibrosis (transforming growth factor-beta1, thrombospondine, fibronectin, plasminogen activator-I and connective tissue growth factor) as well as and matrix metalloproteinase activity were investigated. Thiamine repletion prevented diabetes-induced cardiac fibrosis without changes in plasma glucose concentration. This was achieved by prevention of thiamine depletion, increased pro-fibrotic mRNA abundance and decreased metalloproteinase activity in the heart of diabetic rats. O-glycosylated protein was significantly higher in the left ventricular of diabetic rats compared to control rats, which was decreased by thiamine administration. Thiamine repletion prevented diabetes-induced cardiac fibrosis in experimental diabetes, probably by suppression of hexosamine biosynthesis pathway.

Published
2008
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18. INVOLVEMENT OF ACTIVATION OF NADPH OXIDASE AND EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK) IN RENAL CELL INJURY INDUCED BY ZINC

Author

Yuka Kohda, Yoshiko Matsunaga, Munekazu Gemba, and Yoshiko Kawai

Subjects
MAPK/ERK pathway, Swine, Phenylenediamines, Kidney, Toxicology, medicine.disease_cause, Antioxidants, Extracellular, medicine, Animals, Extracellular Signal-Regulated MAP Kinases, NADPH oxidase, biology, Kinase, NADPH Oxidases, Epithelial Cells, Molecular biology, Cell biology, Enzyme Activation, Zinc, Cytosol, medicine.anatomical_structure, Zinc toxicity, biology.protein, Reactive Oxygen Species, Intracellular
Abstract

Zinc is employed as a supplement; however, zinc-related nephropathy is not generally known. In this study, we investigated zinc-induced renal cell injury using a pig kidney-derived cultured renal epithelial cell line, LLC-PK(1), with proximal kidney tubule-like features, and examined the involvement of free radicals and extracellular signal-regulated kinase (ERK) in the cell injury. The LLC-PK(1) cells showed early uptake of zinc (30 microM), and the release of lactate dehydrogenase (LDH), an index of cell injury, was observed 24 hr after uptake. Three hours after zinc exposure, generation of reactive oxygen species (ROS) was increased. An antioxidant, N, N'-diphenyl-p-phenylenediamine (DPPD), inhibited a zinc-related increase in ROS generation and zinc-induced renal cell injury. An NADPH oxidase inhibitor, diphenyleneiodonium (DPI), inhibited a zinc-related increase in ROS generation and cell injury. We investigated translocation from the cytosol fraction of the p67(phox) subunit, which is involved in the activation of NADPH oxidase, to the membrane fraction, and translocation was induced 3 hr after zinc exposure. We examined the involvement of ERK1/2 in the deterioration of zinc-induced renal cell injury, and the association between ERK1/2 and an increase in ROS generation. Six hours after zinc exposure, the activation (phosphorylation) of ERK1/2 was observed. An antioxidant, DPPD, inhibited the zinc-related activation of ERK1/2. An MAPK/ERK kinase (MEK1/2) inhibitor, U0126, almost completely inhibited zinc-related cell injury (the release of LDH), but did not influence ROS generation. These results suggest that early intracellular uptake of zinc by LLC-PK(1) cells causes the activation of NADPH oxidase, and that ROS generation by the activation of the enzyme leads to the deterioration of renal cell injury via the activation of ERK1/2.

Published
2005
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19. Cephaloridine Induces Translocation of Protein Kinase C δ Into Mitochondria and Enhances Mitochondrial Generation of Free Radicals in the Kidney Cortex of Rats Causing Renal Dysfunction

Author

Munekazu Gemba and Yuka Kohda

Subjects
Male, medicine.medical_specialty, Kidney Cortex, Free Radicals, Renal cortex, Mitochondrion, Biology, Nephrotoxicity, Rats, Sprague-Dawley, chemistry.chemical_compound, Internal medicine, medicine, Cephaloridine, Animals, Protein Kinase Inhibitors, Protein kinase C, Pharmacology, chemistry.chemical_classification, Reactive oxygen species, lcsh:RM1-950, Mitochondria, Rats, Cell biology, carbohydrates (lipids), Protein Transport, lcsh:Therapeutics. Pharmacology, Endocrinology, medicine.anatomical_structure, Mitochondrial respiratory chain, chemistry, Molecular Medicine, Kidney Diseases, lipids (amino acids, peptides, and proteins), Rottlerin, medicine.drug
Abstract

We have previously reported that the enhancement of free radical generation in mitochondria isolated from the kidney cortex of rats exposed to cephaloridine (CER) is probably mediated by the activation of protein kinase C (PKC). We examined which isoenzymes of PKC might be involved in the development of nephrotoxicity induced by CER in rats. The CER-induced renal dysfunction observed 24 h after its injection was prevented by a potent antioxidant DPPD and well-known PKC inhibitors like H-7 and rottlerin. At 1.5 and 3.5 h after the CER injection, the free radical generation was increased markedly and this was associated with translocation of PKCδ into the mitochondria of renal cortex tissue. Pretreatment of rats with H-7, a PKC inhibitor, significantly inhibited the CER-derived increase in mitochondrial generation of free radicals, suggesting that H-7 probably gets into the mitochondria and inhibits the activity of translocated PKC within the mitochondria. It was also shown that pretreatment of rats with rottlerin, a specific inhibitor of PKCδ, suppressed the early translocation of PKCδ into mitochondria and inhibited the CER-derived development of renal dysfunction. These results suggest that the CER-derived early translocation of PKCδ into mitochondria probably leads to the enhanced production of free radicals through the mitochondrial respiratory chain during the development of the nephrotoxicity caused by CER. Understanding the role of PKCδ in mitochondria may provide an important clue to the molecular mechanisms of mitochondrial production of reactive oxygen species and the free radical-induced renal failure in rats treated with CER. Keywords:: cephaloridine, nephrotoxicity, translocation of protein kinase C δ, mitochondria, free radical

Published
2005
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20. Enhancement of protein kinase C activity and chemiluminescence intensity in mitochondria isolated from the kidney cortex of rats treated with cephaloridine

Author

Yuka Kohda and Munekazu Gemba

Subjects
Male, medicine.medical_specialty, Kidney Cortex, Renal cortex, Biochemistry, Nephrotoxicity, Rats, Sprague-Dawley, Superoxide dismutase, chemistry.chemical_compound, Internal medicine, medicine, Cephaloridine, Animals, Renal Insufficiency, Protein Kinase C, Protein kinase C, Pharmacology, chemistry.chemical_classification, Reactive oxygen species, Kidney, biology, Superoxide, Cephalosporins, Mitochondria, Rats, carbohydrates (lipids), Endocrinology, medicine.anatomical_structure, chemistry, Pyrazines, Luminescent Measurements, biology.protein, lipids (amino acids, peptides, and proteins), Reactive Oxygen Species, medicine.drug
Abstract

The development of nephrotoxicity induced by cephaloridine (CER) has been reported to be due to reactive oxygen species (ROS). Protein kinase C (PKC) has been suggested to modulate the generation of ROS. We investigated the possible participation of ROS generation assessed by chemiluminescence (CL) and PKC activity in rat kidney cortical mitochondria in the development of CER-induced nephrotoxicity. We first evaluated the magnitude of the nephrotoxic damage caused by CER in rats. The plasma parameters and ultrastructural morphology changes were increased markedly 24 hr after the treatment of rats with CER. We demonstrated that the treatment of rats with CER clearly evoked not only enhancement of Cypridina luciferin analog (CLA)-dependent CL intensity, but also the activation of PKC in mitochondria isolated from the kidney cortex of rats 1.5 and 3.5 hr after injection of the drug. These changes were detected in advance of those observed in plasma and by electron microscopy. The increase in CLA-dependent CL intensity detected in the kidney cortical mitochondria 1.5 and 3.5 hr after injection of CER was inhibited completely by the addition of superoxide dismutase, suggesting the generation of superoxide anion in these mitochondria during the early stages of CER-induced nephrotoxicity. These results suggest that the activation of PKC and the enhancement of superoxide anion generation in kidney cortical mitochondria precede the increases in plasma parameters and the electron micrographic changes indicative of renal dysfunction in rats treated with CER. Additionally, they suggest a possible relationship between PKC activation in mitochondria and free radical-induced CER nephrotoxicity in rats.

Published
2002
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21. Effects of Efonidipine Hydrochloride on Renal Arteriolar Diameters in Spontaneously Hypertensive Rats

Author

Masuhisa Nakamura, Yuka Kohda, Yuko Takashita, Mitsuru Notoya, Munekazu Gemba, and Junji Yamashita

Subjects
Male, Efferent arteriole, Dihydropyridines, medicine.medical_specialty, Hypertension, Renal, Physiology, Efferent, Kidney Glomerulus, Hydrostatic pressure, Lumen (anatomy), Blood Pressure, Efonidipine, Corrosion Casting, Renal Circulation, Nitrophenols, Organophosphorus Compounds, Rats, Inbred SHR, Internal medicine, Internal Medicine, medicine, Animals, Renal circulation, Chemistry, Body Weight, Lisinopril, Calcium Channel Blockers, Rats, Arterioles, Endocrinology, medicine.anatomical_structure, Blood pressure, Cardiology and Cardiovascular Medicine, circulatory and respiratory physiology, medicine.drug
Abstract

Efonidipine, a calcium antagonist, has been reported to dilate not only afferent but also efferent arterioles, thereby reducing glomerular hydrostatic pressure. We investigated the effect of chronic treatment with efonidipine or lisinopril on the afferent and efferent arteriolar diameters by the vascular cast technique. Four-week-old spontaneously hypertensive rats (SHR) were divided into three groups: untreated, efonidipine (25 mg/kg/day)-treated, and lisinopril (3 mg/kg/day)-treated. At 22 weeks of age, the renal vasculatures were fixed at the maximally dilated condition. The morphometrical measurements showed that the treatments with efonidipine and lisinopril caused structural alteration of the vasculature, resulting in significantly greater efferent arteriolar diameters than in untreated SHR. In addition, lisinopril-treated rats had wider afferent lumina. The renoprotective effect of efonidipine and lisinopril might be partly due to the structurally larger efferent arteriolar lumen.

Published
2002
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22. Effect of Thiamine Repletion on Cardiac Fibrosis and Protein o-Glycosylation in Diabetic Cardiomyopathy

Author

Yuka Kohda, Takao Tanaka, and Hitoshi Matsumura

Subjects
medicine.medical_specialty, Heart disease, business.industry, Cardiomyopathy, food and beverages, Myocardial Disorder, medicine.disease, Nephropathy, Endocrinology, Diabetic cardiomyopathy, Diabetes mellitus, Internal medicine, Medicine, Thiamine, Metabolic syndrome, business, human activities
Abstract

Once diagnosed with diabetes mellitus, the risk of diseases, such as nephropathy, neuropathy, retinopathy and heart disease also increases. The complication of diabetes accompanying myocardial disorder is known as diabetic cardiomyopathy, which is characterized by ventricular dilation that is usually asymptomatic as diabetes progresses. Myocardial fibrosis is closely related to diastolic dysfunction. Thiamine (vitamin B1), an essential micronutrient, has been reported to attenuate diabetic complications and all diabetics may be lacking in thiamine. Thiamine is a coenzyme utilized at multiple steps of glucose metabolism. We believe that thiamine repletion under hyperglycemia might activate glucose oxidation and reduce the overflow of glucose to the hexosamine biosynthesis pathway of glucose metabolism with concomitant reduction of diabetic lesions. The aim of this article is to highlight the role of thiamine, an important factor that combats diabetic complications, especially diabetic cardiomyopathy and also elucidate its impact on O-glycosylated protein in diabetes. Finally, we discuss the ability of thiamine repletion to prevent metabolic syndrome and obesity, which are considered prediabetic states, as well as prediabetic cardiomyopathy.

Published
2013
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23. Atrial natriuretic peptide exerts protective action against angiotensin II-induced cardiac remodeling by attenuating inflammation via endothelin-1/endothelin receptor A cascade

Author

Kaoru Otsuka, Noriko Hosotani, Shuichi Fujita, Takao Tanaka, Nobukazu Ishizaka, Fumio Terasaki, Naoshi Shimojo, Yasushi Kitaura, Tomohiro Nishioka, Kyoko Imanaka-Yoshida, Toshimichi Yoshida, Michiaki Hiroe, and Yuka Kohda

Subjects
Male, medicine.medical_specialty, Time Factors, Heart Diseases, Fibrillar Collagens, Anti-Inflammatory Agents, Cardiomegaly, Rats, Inbred WKY, Ventricular Function, Left, Proinflammatory cytokine, Atrial natriuretic peptide, Internal medicine, medicine, Animals, Ventricular remodeling, Receptor, Infusions, Intravenous, Cells, Cultured, Inflammation, Endothelin-1, Ventricular Remodeling, business.industry, Angiotensin II, Macrophages, Myocardium, Stroke Volume, Fibroblasts, medicine.disease, Receptor, Endothelin A, Endothelin 1, Fibrosis, Myocardial Contraction, Rats, Disease Models, Animal, Endocrinology, cardiovascular system, Mitral Valve, Myocardial fibrosis, Inflammation Mediators, Cardiology and Cardiovascular Medicine, Endothelin receptor, business, hormones, hormone substitutes, and hormone antagonists, Atrial Natriuretic Factor, circulatory and respiratory physiology, Signal Transduction
Abstract

We aimed to investigate whether atrial natriuretic peptide (ANP) attenuates angiotensin II (Ang II)-induced myocardial remodeling and to clarify the possible molecular mechanisms involved. Thirty-five 8-week-old male Wistar-Kyoto rats were divided into control, Ang II, Ang II + ANP, and ANP groups. The Ang II and Ang II + ANP rats received 1 μg/kg/min Ang II for 14 days. The Ang II + ANP and ANP rats also received 0.1 μg/kg/min ANP intravenously. The Ang II and Ang II + ANP rats showed comparable blood pressure. Left ventricular fractional shortening and ejection fraction were lower in the Ang II rats than in controls; these indices were higher (P < 0.001) in the Ang II + ANP rats than in the Ang II rats. In the Ang II rats, the peak velocity of mitral early inflow and its ratio to atrial contraction-related peak flow velocity were lower, and the deceleration time of mitral early inflow was significantly prolonged; these changes were decreased by ANP. Percent fibrosis was higher (P < 0.001) and average myocyte diameters greater (P < 0.01) in the Ang II rats than in controls. ANP decreased both myocardial fibrosis (P < 0.01) and myocyte hypertrophy (P < 0.01). Macrophage infiltration, expression of mRNA levels of collagen types I and III, monocyte chemotactic protein-1, and a profibrotic/proinflammatory molecule, tenascin-C (TN-C) were increased in the Ang II rats; ANP significantly decreased these changes. In vitro, Ang II increased expression of TN-C and endothelin-1 (ET-1) in cardiac fibroblasts, which were reduced by ANP. ET-1 upregulated TN-C expression via endothelin type A receptor. These results suggest that ANP may protect the heart from Ang II-induced remodeling by attenuating inflammation, at least partly through endothelin 1/endothelin receptor A cascade.

Published
2012

25. CHAPTER 35. Role of Thiamine in Obesity-related Diabetes: Modification of the Gene Expression

Author

Takao Tanaka, Yuka Kohda, and Hitoshi Matsumura

Subjects
Vitamin, medicine.medical_specialty, business.industry, food and beverages, Lipid metabolism, Carbohydrate metabolism, medicine.disease, medicine.disease_cause, Obesity, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, Diabetes mellitus, medicine, Thiamine, Metabolic syndrome, Carcinogenesis, business, human activities
Abstract

Thiamine (vitamin B1), which plays an important role in glucose metabolism, can prevent diabetic complications, including those in obesity. We previously found that thiamine intervention can impact metabolic abnormalities, such as progressive obesity and metabolic disorders similar to human metabolic syndrome, in polyphagia-induced Otsuka Long-Evans Tokushima Fatty (OLETF) rats. Thiamine intervention averted obesity, mainly resulting from reduction in visceral adiposity, and prevented metabolic disorders in OLETF rats. Seventy-six genes showed at least a two-fold difference in hepatic expression with thiamine treatment. Several of these genes participated in carbohydrate metabolism, lipid metabolism, vascular physiology and carcinogenesis. Thiamine has a potential to prevent obesity and metabolic disorders in OLETF rats. Although corroboration is necessary, the present findings indicate that thiamine may be beneficial in targeting composite physiological abnormalities, rather than individual component criteria, and can be used for preventive intervention. Given the detrimental effects of obesity and the safety and cost-effectiveness of thiamine, we believe that its use offers considerably more benefits than disadvantages.

Published
2012
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26. Thiamine prevents obesity and obesity-associated metabolic disorders in OLETF rats

Author

Yuka Kohda, Kazuhiko Yamane, Kota Yasui, Kazuya Usui, Fumio Terasaki, Shuichi Fujita, Tatsuji Kono, Miki Manabe, Takao Tanaka, Kaoru Otsuka, and Akiko Soyama

Subjects
Male, medicine.medical_specialty, Rats, Inbred OLETF, Medicine (miscellaneous), Biology, Kidney, Basement Membrane, chemistry.chemical_compound, Lipid oxidation, Metabolic Diseases, Internal medicine, medicine, Thiamine transporter, Adipocytes, Animals, Obesity, Thiamine, Muscle, Skeletal, Pancreas, Nutrition and Dietetics, Membrane Glycoproteins, Fatty acid metabolism, Myocardium, Metabolic disorder, Fatty liver, food and beverages, medicine.disease, Fibrosis, Rats, Endocrinology, chemistry, Liver, Vitamin B Complex, biology.protein, SLC19A2, Leukocytes, Mononuclear, Blood Vessels, RNA, Laminin, Lipid Peroxidation, Metabolic syndrome, Oxidoreductases, human activities
Abstract

We previously found that thiamine mitigates metabolic disorders in spontaneously hypertensive rats, harboring defects in glucose and fatty acid metabolism. Mutation of thiamine transporter gene SLC19A2 is linked to type 2 diabetes mellitus. The current study extends our hypothesis that thiamine intervention may impact metabolic abnormalities in Otsuka Long-Evans Tokushima Fatty (OLETF) rats, exhibiting obesity and metabolic disorders similar to human metabolic syndrome. Male OLETF rats (4 wk old) were given free access to water containing either 0.2% or 0% of thiamine for 21 and 51 wk. At the end of treatment, blood parameters and cardiac functions were analyzed. After sacrifice, organs weights, histological findings, and hepatic pyruvate dehydrogenase (PDH) activity in the liver were evaluated. Thiamine intervention averted obesity and prevented metabolic disorders in OLETF rats which accompanied mitigation of reduced lipid oxidation and increased hepatic PDH activity. Histological evaluation revealed that thiamine alleviated adipocyte hypertrophy, steatosis in the liver, heart, and skeletal muscle, sinusoidal fibrosis with formation of basement membranes (called pseudocapillarization) which accompanied significantly reduced expression of laminin β1 and nidogen-1 mRNA, interstitial fibrosis in the heart and kidney, fatty degeneration in the pancreas, thickening of the basement membrane of the vasculature, and glomerulopathy and mononuclear cell infiltration in the kidney. Cardiac and renal functions were preserved in thiamine treatment. Thiamine has a potential to prevent obesity and metabolic disorders in OLETF rats.

Published
2011

27. Thiamine ameliorates diabetes-induced inhibition of pyruvate dehydrogenase (PDH) in rat heart mitochondria: investigating the discrepancy between PDH activity and PDH E1alpha phosphorylation in cardiac fibroblasts exposed to high glucose

Author

Tatsuji Kono, Yuka Kohda, Fumio Terasaki, Hitoshi Matsumura, Masashi Umeki, and Takao Tanaka

Subjects
Male, Pyruvate dehydrogenase kinase, Blotting, Western, Pyruvate Dehydrogenase Complex, Biology, Mitochondrion, Polymerase Chain Reaction, Cofactor, Mitochondria, Heart, Streptozocin, In vivo, medicine, Animals, RNA, Messenger, Thiamine, Phosphorylation, Rats, Wistar, Cells, Cultured, DNA Primers, Pharmacology, Base Sequence, lcsh:RM1-950, food and beverages, Heart, Fibroblasts, Streptozotocin, Pyruvate dehydrogenase complex, Rats, lcsh:Therapeutics. Pharmacology, Glucose, Biochemistry, biology.protein, Molecular Medicine, Electrophoresis, Polyacrylamide Gel, human activities, medicine.drug
Abstract

The activity of pyruvate dehydrogenase (PDH) is reduced in diabetic patients. Phosphorylation of the PDH E1α subunit by PDH kinase contributes to the suppression of PDH activity. PDH requires thiamine as a coenzyme. We investigated the exact mechanism of diabetes-induced PDH inhibition, and the effect of thiamine in both in vivo and in vitro experiments. Treatment of rats with thiamine significantly, although partially, recovered streptozotocin (STZ)-induced reductions in mitochondrial PDH activity. Nevertheless, we found that PDH E1α phosphorylation in the thiamine-treated STZ group was perfectly diminished to the same level as that in the control group. STZ treatment significantly caused enhancements of the expression of O-glycosylated protein in the rat hearts, which was decreased by thiamine repletion. Next, the rat cardiac fibroblasts (RCFs) were cultured in the presence of high glucose levels. Thiamine dramatically recovered high glucose–induced PDH inhibition. High glucose loads did not alter the phosphorylated PDH E1α. PDH inhibition in RCFs was not accompanied by an increase in the PDH E1α phosphorylation. The O-glycosylated protein was markedly increased in RCFs exposed to high glucose, which was inhibited by thiamine. These results suggest that thiamine ameliorates diabetes-induced PDH inhibition by suppressing the increased expression of the O-glycosylated protein. The O-glycosylation of PDH E1α may be involved in the regulation of the PDH activity. Keywords:: thiamine, pyruvate dehydrogenase (PDH) activity, phosphorylated PDH E1 α, O-glycosylated protein, diabetic rat heart

Published
2010

28. The effect of antioxidant on development of fibrosis by cisplatin in rats

Author

Tomohiko Satoh, Munekazu Gemba, Daisuke Hibi, Yoshiko Kawai, Yukihiro Ohno, Katsuyuki Miura, and Yuka Kohda

Subjects
Male, medicine.medical_specialty, Renal function, Phenylenediamines, medicine.disease_cause, Kidney, Kidney Function Tests, Antioxidants, Rats, Sprague-Dawley, Fibrosis, Internal medicine, medicine, Renal fibrosis, Animals, Pharmacology, chemistry.chemical_classification, Cisplatin, Reactive oxygen species, Aldehydes, business.industry, lcsh:RM1-950, Kidney metabolism, medicine.disease, Actins, Rats, Endocrinology, lcsh:Therapeutics. Pharmacology, Collagen Type III, chemistry, Immunology, Molecular Medicine, business, Interstitial Disease, Oxidative stress, medicine.drug
Abstract

Cisplatin causes chronic interstitial disease with fibrosis, but the development mechanism of interstitial fibrosis is not yet understood. We examined the effect of an antioxidant, N,N’-diphenyl-1,4-phenylenediamine (DPPD), on development of interstitial fibrosis induced by cisplatin. Cisplatin increased blood urea nitrogen (BUN), plasma creatinine, and elicited glucosuria and enzymuria at 3 days after administration, but these changes were restored to the normal level after 14 days. Type III collagen increased from 7 days after administration of cisplatin and the expansion of the interstitial fibrosis area became evident at 14 days. Sustained renal fibrosis worsened renal function again at 56 days. Administration of DPPD, which was started at 3 days after cisplatin treatment, significantly inhibited the increase in renal type III collagen contents and the expansion of the interstitial fibrosis area without affecting enzymuria and increased BUN. These results indicate that anti-fibrotic action of DPPD is not secondary due to the inhibition of acute renal injury but is rather a direct effect on renal fibrogenesis. DPPD did not prevent the infiltration of macrophages by cisplatin, suggesting that anti-fibrotic action of DPPD was not mediated by the inhibition of inflammatory cellular influx. It is suggested that reactive oxygen species are involved in cisplatin-induced renal interstitial fibrosis. Keywords:: cisplatin, renal injury, macrophage, interstitial fibrosis, oxidative stress

Published
2009

29. Involvement of Raf-1/MEK/ERK1/2 signaling pathway in zinc-induced injury in rat renal cortical slices

Author

Yuko Kishi, Yuka Kohda, Ryugo Shiota, Tomohiko Satoh, Munekazu Gemba, Yoshiko Matsunaga, and Yoshiko Kawai

Subjects
MAPK/ERK pathway, Male, medicine.medical_specialty, Kidney Cortex, Renal cortex, MAP Kinase Kinase 2, MAP Kinase Kinase 1, chemistry.chemical_element, Zinc, Phenylenediamines, Toxicology, medicine.disease_cause, Antioxidants, Nephrotoxicity, Lipid peroxidation, Rats, Sprague-Dawley, chemistry.chemical_compound, Western blot, Internal medicine, medicine, Animals, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Aldehydes, medicine.diagnostic_test, Chemistry, Kinase, Molecular biology, Rats, Proto-Oncogene Proteins c-raf, Endocrinology, medicine.anatomical_structure, Zinc toxicity, Lipid Peroxidation, Signal Transduction
Abstract

Zinc is an essential nutrient that can also be toxic. We have previously reported that zinc-related renal toxicity is due, in part, to free radical generation in the renal epithelial cell line, LLC-PK(1) cells. We have also shown that an MEK1/2 inhibitor, U0126, markedly inhibits zinc-induced renal cell injury. In this study, we investigated the role of an upstream MEK/ERK pathway, Raf-1 kinase pathway, and the transcription factor and ERK substrate Elk-1, in rat renal cortical slices exposed to zinc. Immediately after preparing slices from rat renal cortex, the slices were incubated in medium containing Raf-1 and MEK inhibitors. ERK1/2 and Elk-1 activation were determined by Western blot analysis for phosphorylated ERK (pERK) 1/2 and phosphorylated Elk-1 (pElk-1) in nuclear fractions prepared from slices exposed to zinc. Zinc caused not only increases in 4-hydroxynonenal (4-HNE) modified protein and lipid peroxidation, as an index of oxidant stress, and decreases in PAH accumulation, as that of renal cell injury in the slices. Zinc also induced a rapid increase in ERK/Elk-1 activity accompanied by increased expressions of pERK and pElk-1 in the nuclear fraction. A Raf-1 kinase inhibitor and an MEK1/2 inhibitor U0126 significantly attenuated zinc-induced decreases PAH accumulation in the slices. The Raf-1 kinase inhibitor and U0126 also suppressed ERK1/2 activation in nuclear fractions prepared from slices treated with zinc. The present results suggest that a Raf-1/MEK/ERK1/2 pathway and the ERK substrate Elk-1 are involved in free radical-induced injury in rat renal cortical slices exposed to zinc.

Published
2006

30. Relationship of intracellular calcium and oxygen radicals to Cisplatin-related renal cell injury

Author

Yuka Kohda, Takafumi Nakao, Yoshiko Kawai, Naoshi Kunimura, and Munekazu Gemba

Subjects
Time Factors, Cell Survival, Swine, chemistry.chemical_element, Antineoplastic Agents, Calcium, Pharmacology, Phenylenediamines, medicine.disease_cause, Calcium in biology, Antioxidants, Cell Line, chemistry.chemical_compound, Onium Compounds, Extracellular, medicine, Animals, Calcium Signaling, Enzyme Inhibitors, Egtazic Acid, Chelating Agents, chemistry.chemical_classification, Reactive oxygen species, NADPH oxidase, biology, Dose-Response Relationship, Drug, lcsh:RM1-950, NADPH Oxidases, Epithelial Cells, EGTA, lcsh:Therapeutics. Pharmacology, Kidney Tubules, chemistry, Biochemistry, biology.protein, Molecular Medicine, Cisplatin, Reactive Oxygen Species, Intracellular, Oxidative stress
Abstract

We investigated the involvement of reactive oxygen species (ROS) and intracellular calcium in nephrotoxicity related to an antitumor agent, cisplatin. In this study, we employed cultured renal epithelial cells (LLC-PK1). Cisplatin at 500 µM significantly increased the production of ROS 5 h and caused cell injury. This agent significantly increased the intracellular calcium level ([Ca2+]i) in a dose-dependent manner 1 h or more after exposure. DPPD (N,N′-diphenyl-p-phenylenediamine), an antioxidant, inhibited a cisplatin-related increase in active oxygen production and cell injury but did not inhibit an early increase in the [Ca2+]i level. An intracellular calcium-chelating compound BAPTA-AM (1,2-bis(O-aminophenoxy)ethane-N,N,N′,N′-tetraacetic acid tetra(acetoxymethyl) ester) inhibited an increase in ROS production and cell injury induced by cisplatin. Furthermore, BAPTA-AM suppressed the rise of [Ca2+]i level in 1 h after exposure; however, an extracellular calcium chelator EGTA and a calcium antagonist nicardipine did not inhibit the rise in [Ca2+]i level in the early phase. An NADPH oxidase inhibitor inhibited a cisplatin-related increase in ROS production and cell disorder. These results suggest that cisplatin-related calcium release from the site of intracellular calcium storage in the early phase causes oxidative stress in renal tubular epithelial cells. Cisplatin may increase the intracellular production of ROS via NADPH oxidase. Keywords:: cisplatin, nephrotoxicity, reactive oxygen species, intracellular calcium, renal epithelial cell

Published
2006

31. Protective effect of serum thymic factor, FTS, on cephaloridine-induced nephrotoxicity in rats

Author

Katsuya Yonogi, Yuka Kohda, Akira Awaya, Munekazu Gemba, Yoshiko Matsunaga, and Yoshiko Kawai

Subjects
MAPK/ERK pathway, Male, medicine.medical_specialty, Thymic Factor, Circulating, Swine, Blotting, Western, Pharmaceutical Science, Peptide hormone, Kidney, Nephrotoxicity, Rats, Sprague-Dawley, chemistry.chemical_compound, Internal medicine, Lactate dehydrogenase, medicine, Extracellular, Cephaloridine, Animals, Phosphorylation, Protein kinase A, Pharmacology, Cell Nucleus, L-Lactate Dehydrogenase, business.industry, General Medicine, Cephalosporins, Rats, carbohydrates (lipids), Enzyme Activation, Microscopy, Electron, Proteinuria, Endocrinology, medicine.anatomical_structure, Biochemistry, chemistry, Creatinine, LLC-PK1 Cells, lipids (amino acids, peptides, and proteins), Electrophoresis, Polyacrylamide Gel, Kidney Diseases, Mitogen-Activated Protein Kinases, business, medicine.drug
Abstract

Serum thymic factor (FTS), a thymic peptide hormone, has been reported to increase superoxide disumutase (SOD) levels in senescence-accelerated mice. In the present study, we examined the effect of FTS on cephaloridine (CER)-induced nephrotoxicity in vivo and in vitro. We previously reported that CER led to extracellular signal-regulated protein kinase (ERK) activation in the rat kidney. So, we also investigated whether FTS has an effect on ERK activation induced by CER. Treatment of male Sprague-Dawley rats with intravenous CER (1.2 g/kg) for 24 h markedly increased BUN and plasma creatinine levels and urinary excretion of glucose and protein, decreased creatinine clearance and also led to marked pathological changes in the proximal tubules, as revealed by electron micrographs. An increase in phosphorylated ERK (pERK) was detected in the nuclear fraction prepared from the rat kidney cortex 24 h after CER injection. Pretreatment of rats with FTS (50 microg/kg, i.v.) attenuated the CER-induced renal dysfunction and pathological damage. FTS also suppressed CER-induced ERK activation in the kidney. In vitro treatment of the established cell line, LLC-PK1 cells, with FTS significantly ameliorated CER-induced cell injury, as measured by lactate dehydrogenase (LDH) leakage. Our results, taken together with our previous report that MEK inhibitors ameliorated CER-induced renal cell injury and ERK activation induced by CER, suggest that FTS participates in protection from CER-induced nephrotoxicity by suppressing ERK activation induced by CER.

Published
2005

32. Protective effect of a protein kinase inhibitor on cellular injury induced by cephaloridine in the porcine kidney cell line LLC-PK(1)

Author

Yuka Kohda, Yoshiko Kawai, Munekazu Gemba, and Takaaki Kodawara

Subjects
Cell Survival, Swine, Biology, Toxicology, Thiobarbituric Acid Reactive Substances, Lipid peroxidation, chemistry.chemical_compound, Phenols, 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine, Cephaloridine, medicine, Animals, Protein kinase A, Protein kinase B, Protein Kinase Inhibitors, Protein kinase C, Lipid peroxide, Dose-Response Relationship, Drug, L-Lactate Dehydrogenase, urogenital system, Kinase, Thiourea, Free Radical Scavengers, Protein-Tyrosine Kinases, Molecular biology, Genistein, Anti-Bacterial Agents, chemistry, LLC-PK1 Cells, Lipid Peroxidation, Tyrosine kinase, medicine.drug
Abstract

We investigated the effects of a protein kinase C inhibitor and a tyrosine kinase inhibitor on the cellular injury induced by cephaloridine in an established renal epithelial cell line, LLC-PK(1). Cephaloridine increased the leakage of lactate dehydrogenase (LDH) from LLC-PK(1) cells into the medium and also caused an increase in the level of lipid peroxide (index of oxidative stress) in the cells. Treatment of the cells with a hydroxyl radical scavenger, dimethylthiourea (DMTU), inhibited the increases in LDH leakage and lipid peroxidation in LLC-PK(1) cells exposed to cephaloridine. A protein kinase C inhibitor, H-7, and tyrosine kinase inhibitors, genistein and lavendustinA, inhibited the increases in LDH leakage and lipid peroxidation in LLC-PK(1) cells exposed to cephaloridine. These results suggest that a signaling pathway which involves protein kinase C and tyrosine kinase plays a role in the generation of reactive oxygen species in LLC-PK(1) cells damaged by cephaloridine.

Published
2005

33. Serum thymic factor, FTS, attenuates cisplatin nephrotoxicity by suppressing cisplatin-induced ERK activation

Author

Munekazu Gemba, Noriaki Iwamoto, Yuka Kohda, Yoshiko Kawai, Yoshiko Matsunaga, Akira Awaya, and Hiromi Aiga

Subjects
MAPK/ERK pathway, medicine.medical_specialty, Thymic Factor, Circulating, Swine, Peptide hormone, Kidney, Biochemistry, Nephrotoxicity, Cell Line, In vivo, Internal medicine, medicine, Animals, HSP70 Heat-Shock Proteins, Phosphorylation, Protein kinase A, Extracellular Signal-Regulated MAP Kinases, Pharmacology, Cisplatin, Cell Nucleus, Chemistry, Hsp70, Rats, Enzyme Activation, medicine.anatomical_structure, Endocrinology, medicine.drug
Abstract

Serum thymic factor (FTS), a thymic peptide hormone, has been reported to attenuate the bleomycin-induced pulmonary injury and also experimental pancreatitis and diabetes. In the present study, we investigated the effect of FTS on cis-diamminedichloroplatinum II (cisplatin)-induced nephrotoxicity. We have already demonstrated that cephaloridine, a nephrotoxic antibiotic, leads to extracellular signal-regulated protein kinase (ERK) activation in the rat kidney, which probably contributes to cephaloridine-induced renal dysfunction. The aim of this study was to examine the effect of cisplatin on ERK activation in the rat kidney and also the effect of FTS on cisplatin-induced nephrotoxicity in rats. In vitro treatment of LLC-PK1 cells with FTS significantly ameliorated cisplatin-induced cell injury. Treatment of rats with intravenous cisplatin for 3 days markedly induced renal dysfunction and increased platinum contents in the kidney cortex. An increase in pERK was detected in the nuclear fraction prepared from the rat kidney cortex from days 1 to 3 after injection of cisplatin. FTS suppressed cisplatin-induced renal dysfunction and ERK activation in the kidney. FTS did not influence any Pt contents in the kidney after cisplatin administration. FTS has been shown to enhance the in vivo expression of heat shock protein (HSP) 70 in the kidney cortex. The beneficial role of FTS against cisplatin nephrotoxicity may be mediated in part by HSP70, as suggested by its up-regulation in the kidney cortex treated with FTS alone. Our results suggest that FTS participates in protection from cisplatin-induced nephrotoxicity by suppressing ERK activation caused by cisplatin.

Published
2005

34. Low-dose rather than high-dose erythropoietin may be effective in a rat model of dilated cardiomyopathy that is not anaemic

Author

Yuka Kohda, Yasushi Kitaura, Takao Tanaka, Akiko Soyama, D. Nakagawa, and Tatsuji Kono

Subjects
medicine.medical_specialty, business.industry, Erythropoietin, Internal medicine, Low dose, Rat model, Cardiology, Medicine, Dilated cardiomyopathy, Cardiology and Cardiovascular Medicine, business, medicine.disease, medicine.drug
Published
2008
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