James D. Craik scite author profile

Background: Delivering molecules to selected cellular compartments is important for analytical and practical purposes. Results: Varying the length and positions of alkyl substituents results in preferential uptake of zinc porphyrins by particular cellular structures. Conclusion: Uptake, distribution, and phototoxicity of porphyrins depend on charge, lipophilicity, and molecular shape. Significance: Systematic chemical modification provides the basis for rational design of molecules targeting specific cellular compartments.

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Kinetics of 3-O-methyl-D-glucose transport in isolated rat hepatocytes

Craik¹,

Elliott²

1979

107

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3-O-Methyl-D-glucose transport across the plasma membrane of isolated rat hepatocytes was followed for net entry of the sugar into sugar-free cells (zero trans entry), net exit of sugar into sugar-free medium (zero trans exit) and for unidirectional entry and exit fluxes when cells had been equilibrated with sugar in the extracellular medium (equilibrium exchange entry and exit). These measurements were performed at 20 degrees C and pH 7.4 by the use of simple manual methods. Initial rates of transport showed a Michaelis--Menten dependency on the sugar concentration at the cis side of the membrane over the range of concentrations tested (100 microM to 100 mM). Transport was found to be symmetrical with no evidence of substrate stimulation of transport from the trans side of the membrane. Parameters (mean values +/- S.E.M.) of transport were estimated as Vmax. 86.2 +/- 9.7 mmol/litre of cell water per min and Km 18.1 +/- 5.9 mM for exchange entry, Vmax. 78.8 +/- 5.3 mmol/litre of cell water per min and Km 17.6 +/- 3.5 mM for exchange exit, Vmax. 84.1 +/- 8.4 mmol/litre of cell water per min and Km 16.8 +/- 4.6 mM for zero trans exit.

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Conjugates of Fluorescein and Saenta (5′-S-(2-Aminoethyl)-N⁶-(4-nitrobenzyl)-5′-thioadenosine): Flow Cytometry Probes for theESNucleoside Transporter Elements of the Plasma Membrane

Buolamwini

Craik

Wiley

et al. 1994

Nucleosides and Nucleotides

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Targeting Mitochondria by Zn(II)N-Alkylpyridylporphyrins: The Impact of Compound Sub-Mitochondrial Partition on Cell Respiration and Overall Photodynamic Efficacy

et al. 2014

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Mitochondria play a key role in aerobic ATP production and redox control. They harness crucial metabolic pathways and control cell death mechanisms, properties that make these organelles essential for survival of most eukaryotic cells. Cancer cells have altered cell death pathways and typically show a shift towards anaerobic glycolysis for energy production, factors which point to mitochondria as potential culprits in cancer development. Targeting mitochondria is an attractive approach to tumor control, but design of pharmaceutical agents based on rational approaches is still not well established. The aim of this study was to investigate which structural features of specially designed Zn(II)N-alkylpyridylporphyrins would direct them to mitochondria and to particular mitochondrial targets. Since Zn(II)N-alkylpyridylporphyrins can act as highly efficient photosensitizers, their localization can be confirmed by photodamage to particular mitochondrial components. Using cultured LS174T adenocarcinoma cells, we found that subcellular distribution of Zn-porphyrins is directed by the nature of the substituents attached to the meso pyridyl nitrogens at the porphyrin ring. Increasing the length of the aliphatic chain from one carbon (methyl) to six carbons (hexyl) increased mitochondrial uptake of the compounds. Such modifications also affected sub-mitochondrial distribution of the Zn-porphyrins. The amphiphilic hexyl derivative (ZnTnHex-2-PyP) localized in the vicinity of cytochrome c oxidase complex, causing its inactivation during illumination. Photoinactivation of critical cellular targets explains the superior efficiency of the hexyl derivative in causing mitochondrial photodamage, and suppressing cellular respiration and survival. Design of potent photosensitizers and redox-active scavengers of free radicals should take into consideration not only selective organelle uptake and localization, but also selective targeting of critical macromolecular structures.

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James D. Craik

Effect of Molecular Characteristics on Cellular Uptake, Subcellular Localization, and Phototoxicity of Zn(II) N-Alkylpyridylporphyrins

Kinetics of 3-O-methyl-D-glucose transport in isolated rat hepatocytes

Conjugates of Fluorescein and Saenta (5′-S-(2-Aminoethyl)-N⁶-(4-nitrobenzyl)-5′-thioadenosine): Flow Cytometry Probes for theESNucleoside Transporter Elements of the Plasma Membrane

Targeting Mitochondria by Zn(II)N-Alkylpyridylporphyrins: The Impact of Compound Sub-Mitochondrial Partition on Cell Respiration and Overall Photodynamic Efficacy

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James D. Craik

Effect of Molecular Characteristics on Cellular Uptake, Subcellular Localization, and Phototoxicity of Zn(II) N-Alkylpyridylporphyrins

Kinetics of 3-O-methyl-D-glucose transport in isolated rat hepatocytes

Conjugates of Fluorescein and Saenta (5′-S-(2-Aminoethyl)-N6-(4-nitrobenzyl)-5′-thioadenosine): Flow Cytometry Probes for theESNucleoside Transporter Elements of the Plasma Membrane

Targeting Mitochondria by Zn(II)N-Alkylpyridylporphyrins: The Impact of Compound Sub-Mitochondrial Partition on Cell Respiration and Overall Photodynamic Efficacy

Contact Info

Product

Resources

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Conjugates of Fluorescein and Saenta (5′-S-(2-Aminoethyl)-N⁶-(4-nitrobenzyl)-5′-thioadenosine): Flow Cytometry Probes for theESNucleoside Transporter Elements of the Plasma Membrane