A SINGLE AMINO-ACID SUBSTITUTION STRONGLY MODULATES THE ACTIVITY AND SUBSTRATE-SPECIFICITY OF THE MOUSE MDR1 AND MDR3 DRUG EFFLUX PUMPS

被引：214

作者：

GROS, P

DHIR, R

CROOP, J

TALBOT, F

机构：

[1] CHILDRENS HOSP MED CTR,BOSTON,MA 02115

[2] HARVARD UNIV,SCH MED,DANA FARBER CANC INST,BOSTON,MA 02115

来源：

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA | 1991年 / 88卷 / 16期

关键词：

D O I：

10.1073/pnas.88.16.7289

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Specific protein domains and amino acids responsible for the apparent capacity of P-glycoprotein (mdr) to recognize and transport a large group of structurally unrelated drugs have not been identified. We have introduced a single Ser --> Phe substitution within the predicted TM11 domain of mdr1 (position 941) and mdr3 (position 939) and analyzed the effect of these substitutions on the drug-resistance profiles of these two proteins. Mutations at this residue drastically altered the overall degree of drug resistance conveyed by mdr1 and mdr3. The modulating effect of this mutation on mdr1 and mdr3 varied for the drugs tested: it was very strong for colchicine and adriamycin and moderate for vinblastine. For mdr1, the Ser941 --> Phe941 substitution produced a unique mutant protein that retained the capacity to confer vinblastine resistance but lost the ability to confer adriamycin and colchicine resistance. These results strongly suggest that the predicted TM11 domain of proteins encoded by mdr and mdr-like genes plays an important role in the recognition and transport of their specific substrates.

引用

页码：7289 / 7293

页数：5

共 35 条

[11] THE BIOCHEMISTRY OF P-GLYCOPROTEIN-MEDIATED MULTIDRUG RESISTANCE
ENDICOTT, JA
LING, V
[J]. ANNUAL REVIEW OF BIOCHEMISTRY, 1989, 58 : 137 - 171
[12] SEVERAL ALLELES OF THE MULTIDRUG-RESISTANCE GENE ARE CLOSELY LINKED TO CHLOROQUINE RESISTANCE IN PLASMODIUM-FALCIPARUM
FOOTE, SJ
KYLE, DE
MARTIN, RK
ODUOLA, AMJ
FORSYTH, K
KEMP, DJ
COWMAN, AF
[J]. NATURE, 1990, 345 (6272) : 255 - 258
[13] AMPLIFICATION OF THE MULTIDRUG RESISTANCE GENE IN SOME CHLOROQUINE-RESISTANT ISOLATES OF P-FALCIPARUM
FOOTE, SJ
THOMPSON, JK
COWMAN, AF
KEMP, DJ
[J]. CELL, 1989, 57 (06) : 921 - 930
[14] GOTTESMAN MM, 1988, J BIOL CHEM, V263, P12163
[15] MAMMALIAN MULTIDRUG RESISTANCE GENE - COMPLETE CDNA SEQUENCE INDICATES STRONG HOMOLOGY TO BACTERIAL TRANSPORT PROTEINS
GROS, P
CROOP, J
HOUSMAN, D
[J]. CELL, 1986, 47 (03) : 371 - 380
[16] ISOLATION AND EXPRESSION OF A COMPLEMENTARY-DNA THAT CONFERS MULTIDRUG RESISTANCE
GROS, P
BEN-NERIAH, Y
CROOP, JM
HOUSMAN, DE
[J]. NATURE, 1986, 323 (6090) : 728 - 731
[17] CLONING AND CHARACTERIZATION OF A 2ND MEMBER OF THE MOUSE MDR GENE FAMILY
GROS, P
RAYMOND, M
BELL, J
HOUSMAN, D
[J]. MOLECULAR AND CELLULAR BIOLOGY, 1988, 8 (07) : 2770 - 2778
[18] HAMADA H, 1988, J BIOL CHEM, V263, P1454
[19] STRUCTURAL-ANALYSIS OF THE MOUSE MDR1A (P-GLYCOPROTEIN) PROMOTER REVEALS THE BASIS FOR DIFFERENTIAL TRANSCRIPT HETEROGENEITY IN MULTIDRUG-RESISTANT J774.2 CELLS
HSU, SIH
COHEN, D
KIRSCHNER, LS
LOTHSTEIN, L
HARTSTEIN, M
HORWITZ, SB
[J]. MOLECULAR AND CELLULAR BIOLOGY, 1990, 10 (07) : 3596 - 3606
[20] STRUCTURAL MODEL OF ATP-BINDING PROTEINS ASSOCIATED WITH CYSTIC-FIBROSIS, MULTIDRUG RESISTANCE AND BACTERIAL TRANSPORT
HYDE, SC
EMSLEY, P
HARTSHORN, MJ
MIMMACK, MM
GILEADI, U
PEARCE, SR
GALLAGHER, MP
GILL, DR
HUBBARD, RE
HIGGINS, CF
[J]. NATURE, 1990, 346 (6282) : 362 - 365

← 1 2 3 4 →