Phosphofructokinase D from the epithelial cells of rat small intestine.

Biochem J. 1983 November 1; 215(2): 335–341.

PMCID: PMC1152401

S M Khoja and G L Kellett

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Abstract

Phosphofructokinase from the epithelial cells of rat small intestine was characterized with respect to isoenzyme type in a comparison of its properties with those of the skeletal-muscle, brain and major liver isoenzymes by using five different techniques, namely electrophoresis on cellulose acetate and in polyacrylamide gels, chromatography on DEAE-cellulose, (NH4)2SO4 precipitation and immunotitration. When precautions were taken to inhibit the formation of active proteolytic artifacts by the action of endogenous proteinases, each technique revealed that rat intestinal mucosa contains only a single form of phosphofructokinase. The mucosal isoenzyme was found to be very similar to, although not identical with, the major liver isoenzyme and to be quite distinct from the skeletal-muscle isoenzyme when studied by the techniques of cellulose acetate electrophoresis, chromatography on DEAE-cellulose and immunotitration, whereas the converse was true when studied by the techniques of (NH4)2SO4 precipitation and polyacrylamide-gel electrophoresis. The mucosal isoenzyme was distinct from the brain isoenzyme when studied by each of the five techniques. Tsai & Kemp [(1973) J. Biol. Chem. 248, 785-792] reported that animal tissues contain three principal isoenzymes of phosphofructokinase, type A found as the sole isoenzyme in skeletal muscle, type B found as the major isoenzyme in liver and type C found as a significant isoenzyme in brain. Phosphofructokinase from mucosa is distinct from each of these isoenzymes. Following the nomenclature of Tsai & Kemp (1973), the isoenzyme from the mucosa of rat intestinal epithelial cells is designated phosphofructokinase D. The mucosal and liver isoenzymes behave so similarly with respect to their charge and immunological characteristics, on which the typing of isoenzymes is conventionally based, that it is likely that some tissues reported to contain the liver isoenzyme contain instead the mucosal isoenzyme.

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Selected References

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Dunaway, GA, Jr; Morris, HP; Weber, G. A comparative study of rat liver, muscle, and hepatoma 3924A phosphofructokinase isozymes. Cancer Res. 1974 Sep;34(9):2209–2216. [PubMed]
Dunaway, GA; Leung, GL; Cooper, MD; Thrasher, JR; Wagle, SR. Distribution of hepatic phosphofructokinase isozymes in parenchymal and sinusoidal cells. Biochem Biophys Res Commun. 1978 Jan 13;80(1):71–74. [PubMed]
González, F; Tsai, MY; Kemp, RG. Distribution of phosphofructokinase isozymes in rabbit, mouse, guinea pig and rat. Comp Biochem Physiol B. 1975 Oct 15;52(2):315–319. [PubMed]
Hanson, PJ; Parsons, DS. The utilization of glucose and production of lactate by in vitro preparations of rat small intestine: effects of vascular perfusion. J Physiol. 1976 Mar;255(3):775–795. [PubMed]
Jamal, A; Kellett, GL. The effect of starvation on the control of phosphofructokinase activity in the epithelial cells of the rat small intestine. Biochem J. 1983 Jan 15;210(1):129–135. [PubMed]
Kahn, A; Etiemble, J; Meienhofer, MC; Bovin, P. Erythrocyte phosphofructokinase deficiency associated with an unstable variant of muscle phosphofructokinase. Clin Chim Acta. 1975 Jun 20;61(3):415–419. [PubMed]
Kahn, A; Meienhofer, MC; Cottreau, D; Lagrange, JL; Dreyfus, JC. Phosphofructokinase (PFK) isozymes in man. I. Studies of adult human tissues. Hum Genet. 1979 Apr 17;48(1):93–108. [PubMed]
Kemp, RG. Rabbit liver phosphofructokinase. Comparison of some properties with those of muscle phosphofructokinase. J Biol Chem. 1971 Jan 10;246(1):245–252. [PubMed]
Khoja, SM; Beach, NL; Kellett, GL. The isolation and characterization of phosphofructokinase from the epithelial cells of rat small intestine. Biochem J. 1983 May 1;211(2):373–379. [PubMed]
Kurata, N; Matsushima, T; Sugimura, T. Multiple forms of phosphofructokinase in rat tissues and rat tumors. Biochem Biophys Res Commun. 1972 Aug 7;48(3):473–479. [PubMed]
Lad, PM; Hill, DE; Hammes, GG. Influence of allosteric ligands on the activity and aggregation of rabbit muscle phosphofructokinase. Biochemistry. 1973 Oct 23;12(22):4303–4309. [PubMed]
Layzer, RB; Conway, MM. Multiple isoenzymes of human phosphofructokinase. Biochem Biophys Res Commun. 1970 Sep 30;40(6):1259–1265. [PubMed]
Layzer, RB; Rasmussen, J. The molecular basis of muscle phosphofructokinase deficiency. Arch Neurol. 1974 Dec;31(6):411–417. [PubMed]
Layzer, RB; Rowland, LP; Bank, WJ. Physical and kinetic properties of human phosphofructokinase from skeletal muscle and erythrocytes. J Biol Chem. 1969 Jul 25;244(14):3823–3831. [PubMed]
Liddle, PF; Jacobs, DJ; Kellett, GL. A stopped-flow laser light-scattering photometer for the study of the kinetics of macromolecular association-dissociation reactions. Anal Biochem. 1977 May 1;79(1-2):276–290. [PubMed]
LING, KH; MARCUS, F; LARDY, HA. PURIFICATION AND SOME PROPERTIES OF RABBIT SKELETAL MUSCLE PHOSPHOFRUCTOKINASE. J Biol Chem. 1965 May;240:1893–1899. [PubMed]
Porteous, JW. Glucose as a fuel for small intestine. Biochem Soc Trans. 1978;6(3):534–539. [PubMed]
Tanaka, T; An, T; Sakaue, Y. Studies on multimolecular forms of phosphofructokinase in rat tissues. J Biochem. 1971 Mar;69(3):609–612. [PubMed]
TARUI, S; OKUNO, G; IKURA, Y; TANAKA, T; SUDA, M; NISHIKAWA, M. PHOSPHOFRUCTOKINASE DEFICIENCY IN SKELETAL MUSCLE. A NEW TYPE OF GLYCOGENOSIS. Biochem Biophys Res Commun. 1965 May 3;19:517–523. [PubMed]
Taylor, CB; Bew, M. The distribution of two chromatographically distinguishable forms of phosphofructokinase in the tissues of the rat. Biochem J. 1970 Oct;119(4):797–799. [PubMed]
Tsai, MY; Kemp, RG. Isozymes of rabbit phosphofructokinase. Electrophoretic and immunochemical studies. J Biol Chem. 1973 Feb 10;248(3):785–792. [PubMed]
Tsai, MY; Kemp, RG. Rabbit brain phosphofructokinase. Comparison of regulatory properties with those of other phosphofructokinase isozymes. J Biol Chem. 1974 Oct 25;249(20):6590–6596. [PubMed]
Vora, S; Francke, U. Assignment of the human gene for liver-type 6-phosphofructokinase isozyme (PFKL) to chromosome 21 by using somatic cell hybrids and monoclonal anti-L antibody. Proc Natl Acad Sci U S A. 1981 Jun;78(6):3738–3742. [PubMed]
Vora, S; Durham, S; de Martinville, B; George, DL; Francke, U. Assignment of the human gene for muscle-type phosphofructokinase (PFKM) to chromosome 1 (region cen leads to q32) using somatic cell hybrids and monoclonal anti-M antibody. Somatic Cell Genet. 1982 Jan;8(1):95–104. [PubMed]
Weil, D; Cottreau, D; Nguyen Van Cong; Rebourcet, R; Foubert, C; Gross, MS; Dreyfus, JC; Kahn, A. Assignment of the gene for F-type phosphofructokinase to human chromosome 10 by somatic cell hybridization and specific immunoprecipitation. Ann Hum Genet. 1980 Jul;44(Pt 1):11–16. [PubMed]