STABILITY OF ACYL DERIVATIVES OF INSULIN IN THE SMALL-INTESTINE - RELATIVE IMPORTANCE OF INSULIN ASSOCIATION CHARACTERISTICS IN AQUEOUS-SOLUTION

被引：68

作者：

ASADA, H

DOUEN, T

MIZOKOSHI, Y

FUJITA, T

MURAKAMI, M

YAMAMOTO, A

MURANISHI, S

机构：

[1] Department of Biopharmaceutics, Kyoto Pharmaceutical University, Kyoto, 607, Yamashina-ku

来源：

PHARMACEUTICAL RESEARCH | 1994年 / 11卷 / 08期

关键词：

INSULIN; CHEMICAL MODIFICATION; FATTY ACIDS; INTESTINAL STABILITY; ASSOCIATION; CIRCULAR DICHROISM;

D O I：

10.1023/A:1018928613837

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

The stability of insulin and its acyl derivatives in the small intestine was examined in vitro. When these compounds were incubated in small intestinal fluid at 37 degrees C, proteolysis of monoacyl insulins was reduced by increasing the carbon number of the fatty acid attached to Phe-B-1 of the insulin molecule. In contrast, Phe-B-1 and Lys-B-29 diacylated insulins were more susceptible to hydrolysis than native insulin. Similar results were obtained using homogenates of the small intestinal mucosa, although the extent of the contribution of acylation to insulin degradation differed. The mechanism of the accelerated insulin proteolysis by diacylation was studied by circular dichroism (CD). The negative maxima at 270 nm in the CD spectra were attenuated for the diacyl derivatives, indicating that insulin association was inhibited by diacylation. Therefore, the increased proportion of monomers available for insulin proteolysis represents a main factor that makes diacyl derivatives unstable.

引用

页码：1115 / 1120

页数：6

共 29 条

[1] 3-DIMENSIONAL ATOMIC STRUCTURE OF INSULIN AND ITS RELATIONSHIP TO ACTIVITY
BLUNDELL, TL
HODGKIN, DC
MERCOLA, DA
CUTFIELD, JF
CUTFIELD, SM
DODSON, EJ
DODSON, GG
[J]. DIABETES, 1972, 21 : 492 - &
[2] MONOMERIC INSULINS OBTAINED BY PROTEIN ENGINEERING AND THEIR MEDICAL IMPLICATIONS
BRANGE, J
RIBEL, U
HANSEN, JF
DODSON, G
HANSEN, MT
HAVELUND, S
MELBERG, SG
NORRIS, F
NORRIS, K
SNEL, L
SORENSEN, AR
VOIGT, HO
[J]. NATURE, 1988, 333 (6174) : 679 - 682
[3] ETTINGER MJ, 1971, BIOCHEMISTRY-US, V10, P824
[4] PROMOTING EFFECT OF THE NEW CHYMOTRYPSIN INHIBITOR FK-448 ON THE INTESTINAL-ABSORPTION OF INSULIN IN RATS AND DOGS
FUJII, S
YOKOYAMA, T
IKEGAYA, K
SATO, F
YOKOO, N
[J]. JOURNAL OF PHARMACY AND PHARMACOLOGY, 1985, 37 (08) : 545 - 549
[5] GINSBURG A, 1960, J BIOL CHEM, V235, P108
[6] ZINC BINDING, CIRCULAR-DICHROISM, AND EQUILIBRIUM SEDIMENTATION STUDIES ON INSULIN (BOVINE) AND SEVERAL OF ITS DERIVATIVES
GOLDMAN, J
CARPENTER, FH
[J]. BIOCHEMISTRY, 1974, 13 (22) : 4566 - 4574
[7] SYNTHESIS OF PALMITOYL DERIVATIVES OF INSULIN AND THEIR BIOLOGICAL-ACTIVITIES
HASHIMOTO, M
TAKADA, K
KISO, Y
MURANISHI, S
[J]. PHARMACEUTICAL RESEARCH, 1989, 6 (02) : 171 - 176
[8] IMPROVEMENT OF LARGE INTESTINAL-ABSORPTION OF INSULIN BY CHEMICAL MODIFICATION WITH PALMITIC ACID IN RATS
HASHIZUME, M
DOUEN, T
MURAKAMI, M
YAMAMOTO, A
TAKADA, K
MURANISHI, S
[J]. JOURNAL OF PHARMACY AND PHARMACOLOGY, 1992, 44 (07) : 555 - 559
[9] THE ABSORPTION OF INSULIN FROM VARIOUS REGIONS OF THE RAT INTESTINE
KIDRON, M
BARON, H
BERRY, EM
ZIV, E
[J]. LIFE SCIENCES, 1982, 31 (25) : 2837 - 2841
[10] KOPECKOVA P, 1990, P INT S CONTROL REL, V17, P130

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