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ADP-ribosylation factors (ARFs) are approximately 20-kDa guanine nucleotide-binding proteins that stimulate the ADP-ribosyltransferase activity of cholera toxin in vitro. ARFs are highly conserved, ubiquitously expressed in eukaryotic cells and appear to be involved in vesicular protein transport. The two yeast ARFs are > 60% identical to mammalian ARFs and are essential for cell viability (Stearns, T., Kahn, R. A., Botstein, D., and Hoyt, M. A. (1990) Mol. Cell. Biol. 10, 6690-6699). Although the two yeast ARF proteins are 96% identical in amino acid sequence, the yeast ARF1 gene is constitutively expressed, whereas the ARF2 gene is repressed by glucose. Human ARF5 and ARF6 and a Giardia ARF differ substantially in size and amino acid identity from other mammalian and eukaryotic ARFs but will, as befits their designation, activate cholera toxin. Expression of human ARF5, ARF6, or Giardia ARF cDNA rescued the lethal yeast ARF double mutant (arf1, arf2). Strains rescued by human ARF5, ARF6, or Giardia ARF grew much more slowly than wild-type yeast or strains rescued with yeast ARF1. We infer from the impaired growth of these rescued strains that the homologous ARFs may have specific targeting information that does not interact effectively or efficiently with the yeast protein membrane trafficking system.
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PMID:Human and Giardia ADP-ribosylation factors (ARFs) complement ARF function in Saccharomyces cerevisiae. 144 92

We have studied the expression of the gene fragments encoding the enzymatically active portion of three bacterial cytotoxins: exotoxin A (ETA) of Pseudomonas aeruginosa, and pertussis toxin (PT) and adenylate cyclase toxin (CYA) of Bordetella pertussis, in sensitive mammalian target cells. Expression of active ETA and CYA was lethal to the producing cells and stable transfectants of Cos-1 cells containing the corresponding genes could not be obtained. The expression of the PTS1 subunit was tolerated by the producing mammalian cells. Since PT is cytotoxic because of ADP-ribosylation of G-proteins, we assume that the endogenously expressed PTS1 may not find the cellular target G proteins or PTS1 alone may not be sufficient for ADP-ribosylation of these proteins in vivo.
Mol Microbiol 1992 Sep
PMID:Expression of bacterial cytotoxin genes in mammalian target cells. 144 74

Experiments were performed to probe the mechanism by which Bacillus anthracis Lethal Toxin (LeTx) causes lysis of J774 macrophage-like cells. After incubation of cells with saturating concentrations of the toxin, two categories of effects were found, which were distinguishable on the basis of chronology, Ca(2+)-dependence, and sensitivity to osmolarity. The earliest events (category I), beginning 45 min postchallenge, were an increase in permeability to 22Na and 86Rb and a rapid conversion of ATP to ADP and AMP. Later events (category II) included alterations in membrane permeability to 45Ca, 51Cr, 36Cl, 35SO4, 3H-amino acids, and 3H-uridine, beginning at 60 min; inhibition of macromolecular synthesis, leakage of cellular lactate dehydrogenase and onset of gross morphological changes, at approximately 75 min; and cell lysis, beginning at 90 min. Category II events exhibited an absolute requirement for extracellular Ca2+ and were blocked by addition of 0.3 M sucrose to the medium, whereas category I events were attenuated, but not blocked, by either of these conditions. On the other hand, both ATP depletion and the category II events were blocked in osmotically stabilized medium that was also isoionic for Na+ and K+. This suggests that permeabilization of the plasma membrane to monovalent cations and water may be the earliest of the physiological changes described here. The resulting influx of Na+ and efflux of K+ would be expected to cause depletion of ATP, via increased activity of the Na+/K+ pump. Subsequently the influx of Ca2+, induced by depletion of ATP, imbalances in monovalent cautions, and/or more dramatic changes in permeability due to influx of water, would be expected to trigger widespread changes leading ultimately to cytolysis.
Mol Biol Cell 1992 Nov
PMID:Biochemical and physiological changes induced by anthrax lethal toxin in J774 macrophage-like cells. 145 31

The energetic conditions in anoxia which lead to stunning and cell damage upon reoxygenation of the myocardium are studied in isolated papillary muscles of rabbit contracting isometrically at 20 degrees C. Before anoxia and thereafter the muscles are stimulated at 0.2 Hz, while during anoxia stimulation frequency is varied. Total creatine (CrT) content is taken as a measure of cell damage. The degree of stunning is estimated from the difference in force before anoxia and at the end of the recovery period when no creatine is lost. In anoxic rabbit papillary muscles glycogen is the substrate for lactate formation. The 'ATP reserve' of the muscle can then be calculated from: 2 ATP + PCr + ADP + 3 (glycosyl units). In control muscles it equals 482.2 mumol.g-1 dw of ATP. By varying stimulus frequency (0, 0.2, 0.5, or 1 Hz) during and the length of the anoxic period (20 to 80 min), the fraction of the ATP reserve used in anoxia is varied. It is found that the degree of stunning depends on the degree of ATP reserve depletion. When the ATP reserve becomes virtually zero force recovers to only 67% of the preanoxic value. When anoxia continues after the ATP reserve is virtually zero, creatine in the muscle decreases during reoxygenation, indicating cell damage. Apparently a hierarchy of cellular ATPases exists in the myocardium when energy is short preserving cell integrity as long as possible.
J Mol Cell Cardiol 1992 Nov
PMID:Energetic determinants of stunning and cell damage following reoxygenation of rabbit myocardium. 147 21

Clostridium botulinum C2 toxin, Clostridium perfringens iota toxin, and Clostridium spiroforme toxin ADP-ribosylate actin monomers. Toxin-induced ADP-ribosylation disturbs the cellular equilibrium between monomeric and polymeric actin and traps monomeric actin in its unpolymerized form, thereby depolymerizing actin filaments and destroying the microfilament network. Furthermore, the toxins ADP-ribosylate gelsolin actin complexes. These modifications may contribute to the cytopathic action of the toxins.
Mol Microbiol 1992 Oct
PMID:Mechanisms of the cytopathic action of actin-ADP-ribosylating toxins. 147 82

Xenopus eggs contain large stores of glycogen, but this glycogen is not glycolytically processed during cleavage. The Embden-Meyerhof pathway is inhibited by the absence of pyruvate kinase activity in vivo, and lactate and pyruvate are present at relatively low levels. In the late blastula, just preceding gastrulation, lactate levels increase, indicating the onset of glycogen breakdown and glycolytic flux. Glycolysis from microinjected [14C]glucose-6-phosphate could be transiently activated, however, by the coinjection of ADP into fertilized eggs, and constitutively activated by the injection of the ATPase potato apyrase, indicating the presence of all enzymes necessary for glycolytic activity. The isozyme profiles of pyruvate kinase and malic enzyme, two enzymes involved in carbon metabolism during cleavage or in the subsequent activation of glycogen breakdown, do not change between the egg and gastrula stages. These data suggest that the activation of glycogen breakdown and glycolysis in the late blastula is probably not a result of new gene activity but may be the metabolic consequence of increased free ADP that is then able to support the pyruvate kinase reaction.
Mol Reprod Dev 1992 Aug
PMID:Glycogen breakdown in cleaving Xenopus embryos is limited by ADP. 149 83

(ADP-ribosyl)ation of chromosomal proteins was studied by incubating the nuclei of brain and liver of young and old rats with 14C-NAD+. In brain as well as in liver histone proteins show approximately 2-3 fold higher (ADP-ribosyl)ation than that of non-histone chromosomal (NHC) proteins of both the age groups. H1 seems to be the major target for (ADP-ribosyl)ation. Amongst nucleosomal histones H2B is the main acceptor of 14C-labelled ADP-ribose moieties. A sharp age related decline of (ADP-ribosyl)ation of chromosomal proteins was observed in both the tissues.
Cell Mol Biol 1992 Jul
PMID:(ADP-ribosyl)ation pattern of chromosomal proteins during ageing. 149 45

A mutant of Saccharomyces cerevisiae defective in the S-adenosylmethionine (AdoMet)-dependent methyltransferase step of diphthamide biosynthesis was selected by intracellular expression of the F2 fragment of diphtheria toxin (DT) and shown to belong to complementation group DPH5. The DPH5 gene was cloned, sequenced, and found to encode a 300-residue protein with sequence similarity to bacterial AdoMet:uroporphyrinogen III methyltransferases, enzymes involved in cobalamin (vitamin B12) biosynthesis. Both DPH5 and AdoMet:uroporphyrinogen III methyltransferases lack sequence motifs commonly found in other methyltransferases and may represent a new family of AdoMet:methyltransferases. The DPH5 protein was produced in Escherichia coli and shown to be active in methylation of elongation factor 2 partially purified from the dph5 mutant. A null mutation of the chromosomal DPH5 gene did not affect cell viability, in agreement with other studies indicating that diphthamide is not required for cell survival. The dph5 null mutant survived expression of three enzymically attenuated DT fragments but was killed by expression of fully active DT fragment A. Consistent with these results, elongation factor 2 from the dph5 null mutant was found to have weak ADP-ribosyl acceptor activity, which was detectable only in the presence of high concentrations of fragment A.
Mol Cell Biol 1992 Sep
PMID:DPH5, a methyltransferase gene required for diphthamide biosynthesis in Saccharomyces cerevisiae. 150

In muscle fibres labelled with iodoacetamidotetramethylrhodamine at Cys707 of the myosin heavy chain, the probes have been reported to change orientation when the fibre is activated, relaxed or put into rigor. In order to test whether these motions are indications of the cross-bridge power stroke, we monitored tension and linear dichroism of the probes in single glycerol-extracted fibres of rabbit psoas muscle during mechanical transients initiated by laser pulse photolysis of caged ATP and caged ADP. In rigor dichroism is negative, indicating average probe absorption dipole moments oriented more than 54.7 degrees away from the fibre axis. During activation from rigor induced by photoliberation of ATP from caged ATP in the presence of calcium, the dichroism reversed sign promptly (half-time 12.5 ms for 500 microM-ATP) upon release of ATP, but then changed only slightly during tension development 20 to 100 milliseconds later. During the onset of rigor following transfer of the fibre from an ATP-containing relaxing solution to a rigor medium lacking ATP, force generation preceded the change in dichroism. The dichroism change occurred slowly (half-time 47 s), because binding of ADP to sites within the muscle fibre limited its rate of diffusion out of the fibre. When ADP was introduced or removed, the dichroism transient was similar in time course and magnitude to that obtained after the introduction or removal of ATP. Neither adding nor removing ADP produced substantial changes in force. These results demonstrate that orientation of the rhodamine probes on the myosin head reflects mainly structural changes linked to nucleotide binding and release, rather than rotation of the cross-bridge during force generation.
J Mol Biol 1992 Jan 05
PMID:Transients in orientation of a fluorescent cross-bridge probe following photolysis of caged nucleotides in skeletal muscle fibres. 153 Sep 78

Recent evidence from genetic experiments in yeast and from studies using guanosine triphosphate (GTP) analogues in mammalian cells suggests a key role for low-molecular-mass GTP-binding proteins (LMM-GBPs) (Mr 19 to 28 kD) in processes of intracellular vesicular sorting and secretion. Assembly and exocytosis of the lamellar body (LB), the secretory organelle of the pulmonary alveolar type 2 pneumocyte, may be regulated by LMM-GBPs. We used [alpha-32P]GTP binding to Western blotted proteins, ultraviolet crosslinking of [alpha-32P]GTP to membrane proteins, immunoblotting with specific antisera, and botulinum exoenzyme C3-catalyzed ADP ribosylation to detect LMM-GBPs in LB. With the first two techniques, we have identified six LMM-GBPs of approximately 27, 25.5, 24.5, 23, 22, and 21 kD that are enriched in a highly purified LB fraction compared with type 2 pneumocyte homogenate, crude membranes, and cytosol. Further characterization of the LB LMM-GBPs by immunoblotting revealed that ras p21 is greatly enriched in the LB fraction compared with other type 2 pneumocyte fractions. In addition, botulinum exoenzyme C3 catalyzed the ADP ribosylation of 20- to 21-kD proteins that were similarly enriched in the LB fraction. In contrast, a monospecific antibody to ADP-ribosylation factor reacted with a 19-kD protein only in the type 2 pneumocyte homogenate and cytosol fractions. Monospecific antibodies to yeast Sec4 protein and to rab 3A did not react with any type 2 pneumocyte proteins. The LMM-GBPs specifically associated with LB may participate in intracellular events required for surfactant packaging and secretion.
Am J Respir Cell Mol Biol 1992 Mar
PMID:Identification of ras and ras-related low-molecular-mass GTP-binding proteins associated with rat lung lamellar bodies. 154 Mar 90

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