EXAMINATION OF PRIMARY METABOLIC PATHWAYS IN A MURINE HYBRIDOMA WITH C-13 NUCLEAR-MAGNETIC-RESONANCE SPECTROSCOPY

被引：74

作者：

MANCUSO, A ^{[1
]}

SHARFSTEIN, ST ^{[1
]}

TUCKER, SN ^{[1
]}

CLARK, DS ^{[1
]}

BLANCH, HW ^{[1
]}

机构：

[1] UNIV CALIF BERKELEY, DEPT CHEM ENGN, BERKELEY, CA 94720 USA

来源：

BIOTECHNOLOGY AND BIOENGINEERING | 1994年 / 44卷 / 05期

关键词：

HYBRIDOMA METABOLISM; C-13; NMR; INTRACELLULAR; HOLLOW FIBER BIOREACTOR;

D O I：

10.1002/bit.260440504

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

Primary metabolism of a murine hybridoma was probed with C-13 nuclear magnetic resonance (NMR) spectroscopy. Cells cultured in a hollow fiber bioreactor were serially infused with [1-C-13] glucose, [2-C-13] glucose, and [3-C-13] glutamine. In vivo spectroscopy of the culture was used in conjunction with off-line spectroscopy of the medium to determine the intracellular concentration of several metabolic intermediates and to determine fluxes for primary metabolic pathways. Intracellular concentrations of pyruvate and alanine were very high relative to levels observed in normal quiescent mammalian cells. Estimates made from labeling patterns in lactate indicate that 76% of pyruvate is derived directly from glycolysis; some is also derived from the malate shunt, the pyruvate/malate shuttle associated with lipid synthesis and the pentose phosphate pathway. The rate of formation of pyruvate from the pentose phosphate pathway was estimated to be 4% of that from glycolysis; this value is a lower limit and the actual value may be higher. Incorporation of pyruvate into the tricarboxylic acid (TCA) cycle appears to occur through only pyruvate dehydrogenase; no pyruvate carboxylase activity was detected. The malate shunt rate was approximately equal to the rate of glutamine uptake. The rate of incorporation of glucose-derived acetyl-CoA into lipids was 4% of the glucose uptake rate. The TCA cycle rate between isocitrate and alpha-ketoglutarate was 110% of the glutamine uptake rate. (C) 1994 John Wiley and Sons, Inc.

引用

页码：563 / 585

页数：23

共 75 条

[1] GLUTAMINE-METABOLISM IN LYMPHOCYTES OF THE RAT [J].

ARDAWI, MSM ;

NEWSHOLME, EA .

BIOCHEMICAL JOURNAL, 1983, 212 (03) :835-842

[2] APPLICATION OF MULTIPULSE NMR TO OBSERVE C-13-LABELED METABOLITES IN BIOLOGICAL-SYSTEMS [J].

BENDALL, MR ;

DENHOLLANDER, JA ;

ARIASMENDOZA, F ;

ROTHMAN, DL ;

BEHAR, KL ;

SHULMAN, RG .

MAGNETIC RESONANCE IN MEDICINE, 1985, 2 (01) :56-64

[3] METABOLIC CHANGES IN ACTIVATED T-CELLS - AN NMR-STUDY OF HUMAN PERIPHERAL-BLOOD LYMPHOCYTES [J].

BENTAL, M ;

DEUTSCH, C .

MAGNETIC RESONANCE IN MEDICINE, 1993, 29 (03) :317-326

[4]

BHADURI A, 1963, BIOCHIM BIOPHYS ACTA, V70, P221, DOI 10.1016/0006-3002(63)90747-9

[5]

Breitmaier E, 1987, CARBON 13 NMR SPECTR

[6] A COMBINED NMR AND MOLECULAR BIOLOGICAL APPROACH TO STUDYING ENZYMES INVIVO [J].

BRINDLE, KM ;

DAVIES, SEC ;

WILLIAMS, SP .

BIOCHEMICAL SOCIETY TRANSACTIONS, 1991, 19 (04) :997-1001

[7] OBSERVATION OF CARBON LABELING IN CELL METABOLITES USING PROTON SPIN-ECHO NMR [J].

BRINDLE, KM ;

BOYD, J ;

CAMPBELL, ID ;

PORTEOUS, R ;

SOFFE, N .

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1982, 109 (03) :864-871

[8] NATURAL ABUNDANCE C-13 NUCLEAR MAGNETIC-RESONANCE SPECTROSCOPY OF LIVER AND ADIPOSE-TISSUE OF THE LIVING RAT [J].

CANIONI, P ;

ALGER, JR ;

SHULMAN, RG .

BIOCHEMISTRY, 1983, 22 (21) :4974-4980

[9]

CASTILLO F, 1988, COMMUNICATION

[10]

CHANCE EM, 1983, J BIOL CHEM, V258, P3785

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