Arginine-induced insulin secretion in endoplasmic reticulum

Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin wi...

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Published in	Biochemical and biophysical research communications Vol. 466; no. 4; pp. 717 - 722
Main Authors	Umeda, Makoto, Hiramoto, Masaki, Watanabe, Atsushi, Tsunoda, Nobuyo, Imai, Takeshi
Format	Journal Article
Language	English
Published	United States Elsevier Inc 30.10.2015
Subjects	agarose Animals Arginine Arginine - metabolism Arginine - pharmacology Biomimetic Materials - pharmacology Brazilian propolis calnexin Calnexin - pharmacology Cell Line Diabetes mellitus Endoplasmic reticulum Endoplasmic Reticulum - metabolism Glucose Insulin Insulin - metabolism Insulin Secretion Insulin-Secreting Cells - drug effects Insulin-Secreting Cells - metabolism Mice Nanotechnology proinsulin Proinsulin - metabolism propolis Propolis - pharmacology screening T2DM FK Diabetes mellitus IP PKA Brazilian propolis DM Glucose Akt WB CNX Insulin ER Ins GPRC6A NOS Arginine PMSF OE Arg FCS Endoplasmic reticulum
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Abstract	Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin without arginine cultivation. Arginine administration reduced prionsulin amount in 30 s, then insulin is secreted from NIT1 cells. These data indicated that the target factor(s) for arginine-induced insulin secretion located in endoplasmic reticulum (ER). We established the screening system for identifying the arginine mimetics. Brazilian propolis, not Chinese propolis, induced insulin secretion. To identify target factor(s) of arginine induced insulin secretion, our previous study was that nanobeads technology facilitated us to purify chemical-target factors. This time we chose the other way, proinsulin associating factor purification and arginine-immobilized agarose. Three proinsulin associating factors and 5 arginine interacting factors were identified. Among theses factors, Calnexin (CNX) was the only one factor, which belonged to both groups, suggesting that CNX might play a key role in arginine-induced insulin secretion in ER. [Display omitted] •Proinsulin is main form without arginine.•Arginine convert proinsulin to insulin.•Brazilian propolis induced insulin secretion.•Arginine-interacted and proinsulin-associated factors were identified.
AbstractList	Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin without arginine cultivation. Arginine administration reduced prionsulin amount in 30 s, then insulin is secreted from NIT1 cells. These data indicated that the target factor(s) for arginine-induced insulin secretion located in endoplasmic reticulum (ER). We established the screening system for identifying the arginine mimetics. Brazilian propolis, not Chinese propolis, induced insulin secretion. To identify target factor(s) of arginine induced insulin secretion, our previous study was that nanobeads technology facilitated us to purify chemical-target factors. This time we chose the other way, proinsulin associating factor purification and arginine-immobilized agarose. Three proinsulin associating factors and 5 arginine interacting factors were identified. Among theses factors, Calnexin (CNX) was the only one factor, which belonged to both groups, suggesting that CNX might play a key role in arginine-induced insulin secretion in ER. Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin without arginine cultivation. Arginine administration reduced prionsulin amount in 30 s, then insulin is secreted from NIT1 cells. These data indicated that the target factor(s) for arginine-induced insulin secretion located in endoplasmic reticulum (ER). We established the screening system for identifying the arginine mimetics. Brazilian propolis, not Chinese propolis, induced insulin secretion. To identify target factor(s) of arginine induced insulin secretion, our previous study was that nanobeads technology facilitated us to purify chemical-target factors. This time we chose the other way, proinsulin associating factor purification and arginine-immobilized agarose. Three proinsulin associating factors and 5 arginine interacting factors were identified. Among theses factors, Calnexin (CNX) was the only one factor, which belonged to both groups, suggesting that CNX might play a key role in arginine-induced insulin secretion in ER. [Display omitted] •Proinsulin is main form without arginine.•Arginine convert proinsulin to insulin.•Brazilian propolis induced insulin secretion.•Arginine-interacted and proinsulin-associated factors were identified. Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin without arginine cultivation. Arginine administration reduced prionsulin amount in 30 s, then insulin is secreted from NIT1 cells. These data indicated that the target factor(s) for arginine-induced insulin secretion located in endoplasmic reticulum (ER). We established the screening system for identifying the arginine mimetics. Brazilian propolis, not Chinese propolis, induced insulin secretion. To identify target factor(s) of arginine induced insulin secretion, our previous study was that nanobeads technology facilitated us to purify chemical-target factors. This time we chose the other way, proinsulin associating factor purification and arginine-immobilized agarose. Three proinsulin associating factors and 5 arginine interacting factors were identified. Among theses factors, Calnexin (CNX) was the only one factor, which belonged to both groups, suggesting that CNX might play a key role in arginine-induced insulin secretion in ER.Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is unknown. Arginine induced insulin secretion in mice as well as β cell line, NIT-1, in which more than 90% of intracellular insulin is prionsulin without arginine cultivation. Arginine administration reduced prionsulin amount in 30 s, then insulin is secreted from NIT1 cells. These data indicated that the target factor(s) for arginine-induced insulin secretion located in endoplasmic reticulum (ER). We established the screening system for identifying the arginine mimetics. Brazilian propolis, not Chinese propolis, induced insulin secretion. To identify target factor(s) of arginine induced insulin secretion, our previous study was that nanobeads technology facilitated us to purify chemical-target factors. This time we chose the other way, proinsulin associating factor purification and arginine-immobilized agarose. Three proinsulin associating factors and 5 arginine interacting factors were identified. Among theses factors, Calnexin (CNX) was the only one factor, which belonged to both groups, suggesting that CNX might play a key role in arginine-induced insulin secretion in ER.
Author	Imai, Takeshi Hiramoto, Masaki Watanabe, Atsushi Tsunoda, Nobuyo Umeda, Makoto
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Keywords	T2DM FK Diabetes mellitus IP PKA Brazilian propolis DM Glucose Akt WB CNX Insulin ER Ins GPRC6A NOS Arginine PMSF OE Arg FCS Endoplasmic reticulum
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Snippet	Arginine, a semi-essential amino acid, is known as one of the most strongest insulin secretagogues in a glucose-dependent manner, but major mechanism is...
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SubjectTerms	agarose Animals Arginine Arginine - metabolism Arginine - pharmacology Biomimetic Materials - pharmacology Brazilian propolis calnexin Calnexin - pharmacology Cell Line Diabetes mellitus Endoplasmic reticulum Endoplasmic Reticulum - metabolism Glucose Insulin Insulin - metabolism Insulin Secretion Insulin-Secreting Cells - drug effects Insulin-Secreting Cells - metabolism Mice Nanotechnology proinsulin Proinsulin - metabolism propolis Propolis - pharmacology screening
Title	Arginine-induced insulin secretion in endoplasmic reticulum
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