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Suh, Han Na,Huong, Huang Thi,Song, Chang Hun,Lee, Jang Hern,Han, Ho Jae American Physiological Society 2008 American journal of physiology. Cell physiology Vol.295 No.6
<P>Fatty acids serve vital functions as sources of energy, building materials for cellular structures, and modulators of physiological responses. Therefore, this study examined the effect of linoleic acid on glucose production and its related signal pathways in primary cultured chicken hepatocytes. Linoleic acid (double-unsaturated, long chain) increased glucose production in a dose (> or =10(-4) M)- and time (> or =8 h)-dependent manner. Both oleic acid (monounsaturated, long chain) and palmitic acid (saturated, long chain) also increased glucose production, whereas caproic acid (saturated, short chain) failed to increase glucose production. Linoleic acid increased G protein-coupled receptor 40 (GPR40; also known as free fatty acid receptor-1) protein expression and glucose production that was blocked by GPR40-specific small interfering RNA. Linoleic acid increased intracellular calcium concentration, which was blocked by EGTA (extracellular calcium chelator)/BAPTA-AM (intracellular calcium chelator), U-73122 (phospholipase C inhibitor), nifedipine, or methoxyverapamil (L-type calcium channel blockers). Linoleic acid increased cytosolic phospholipase A(2) (cPLA(2)) phosphorylation and the release of [(3)H]-labeled arachidonic acid. Moreover, linoleic acid increased the level of cyclooxygenase-2 (COX-2) protein expression, which stimulated the synthesis of prostaglandin E(2) (PGE(2)). The increase in PGE(2) production subsequently stimulated peroxisome proliferator-activated receptor (PPAR) expression, and MK-886 (PPAR-alpha antagonist) and GW-9662 (PPAR-delta antagonist) inhibited glucose-6-phosphatase and phosphoenolpyruvate carboxykinase. In addition, linoleic acid-induced glucose production was blocked by inhibition of extracellular and intracellular calcium, cPLA(2), COX-2, or PPAR pathways. In conclusion, linoleic acid promoted glucose production via Ca(2+)/PLC, cPLA(2)/COX-2, and PPAR pathways through GPR40 in primary cultured chicken hepatocytes.</P>
Suh, Han Na,Lee, Sang Hun,Lee, Min Young,Heo, Jung Sun,Lee, Yu Jin,Han, Ho Jae Wiley Subscription Services, Inc., A Wiley Company 2008 Journal of cellular biochemistry Vol.103 No.4
<P>Aquaporin8 (AQP8) is a transmembrane water channel that is found mainly in hepatocytes. The direct involvement of AQP8 in high glucose condition has not been established. Therefore, this study examined the effects of high glucose on AQP8 and its related signal pathways in primary cultured chicken hepatocytes. High glucose increased the movement of AQP8 from the intracellular membrane to plasma membrane in a 30 mM glucose concentration and in a time- (≥10 min) dependent manner. On the other hand, 30 mM mannitol did not affect the translocation of AQP8, which suggested the absence of osmotic effect. Thirty millimolar glucose increased intracellular cyclic adenosine 3, 5-monophosphate (cAMP) level. Moreover, high glucose level induced Akt phosphorylation, protein kinase C (PKC) activation, p44/42 mitogen-activated protein kinases (MAPKs), p38 MAPK, and c-jun NH<SUB>2</SUB>-terminal kinase (JNK) phosphorylation. On the other hand, inhibition of each pathway by SQ 22536 (adenylate cyclase inhibitor), LY 294002 (PI3-K phosphatidylinositol 3-kinase inhibitor), Akt inhibitor, staurosporine (PKC inhibitor), PD 98059 (MEK inhibitor), SB 203580 (p38 MAPK inhibitor), or SP 600125 (JNK inhibitor) blocked 30 mM glucose-induced AQP8 translocation, respectively. In addition, inhibition of microtubule movement with nocodazole blocked high glucose-induced AQP8 translocation. High glucose level also increased the level of kinesin light chain and dynein protein expression. In conclusion, high glucose level stimulates AQP8 via cAMP, PI3-K/Akt, PKC, and MAPKs pathways in primary cultured chicken hepatocytes. J. Cell. Biochem. 103: 1089–1100, 2008. © 2007 Wiley-Liss, Inc.</P>
Han Na Suh 한국실험동물학회 2021 한국실험동물학회 학술발표대회 논문집 Vol.2021 No.7
Because minipig skin is similar to the human skin in anatomy and physiology, establishing an atopic dermatitis (AD) minipig model seems meaningful. We applied 1-Fluoro-2, 4-dinitrobenzene (DNFB) or ovalbumin on Yucatan minipig back skin. Both DNFB and ovalbumin mediated epithelial hyperplasia, spongiosis, and immune cell infiltration in dermis, which is a typical histopathological feature of AD. Moreover, AD upregulated the Th1 and Th2-related cytokine expressions in DNFB or in ovalbumin-treated skin. Notably, AD minipig exhibited the cytokine upregulation in serum. Histopathological findings and cytokine analysis revealed that DNFB or ovalbumin mediates AD. However, ovalbumin-treated minipig is a more reliable and precise AD model owing to the DNFB-induced severe skin damage. In summary, ovalbumin-treated skin shows similar AD as human in histopathological and molecular analysis.