Tracy L. Wolfe scite author profile

HIV-1 Gag protein assembles into 100- to 120-nm diameter particles in mammalian cells. Recombinant HIV-1 Gag protein assembles in a fully defined system in vitro into particles that are only 25–30 nm in diameter and that differ significantly in other respects from authentic particles. However, particles with the size and other properties of authentic virions were obtained in vitro by addition of inositol phosphates or phosphatidylinsitol phosphates to the assembly system. Thus, the interactions between HIV-1 Gag protein molecules are altered by binding of inositol derivatives; this binding is apparently essential for normal HIV-1 particle assembly. This requirement is not seen in a deleted Gag protein lacking residues 16–99 within the matrix domain.

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Sodium dichloroacetate selectively targets cells with defects in the mitochondrial ETC

Stockwin

Borgel

et al. 2010

Intl Journal of Cancer

149

152

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The “Warburg effect,” also termed aerobic glycolysis, describes the increased reliance of cancer cells on glycolysis for ATP production, even in the presence of oxygen. Consequently, there is continued interest in inhibitors of glycolysis as cancer therapeutics. One example is dichloroacetate (DCA), a pyruvate mimetic that stimulates oxidative phosphorylation through inhibition of pyruvate dehydrogenase kinase. In this study, the mechanistic basis for DCA anti‐cancer activity was re‐evaluated in vitro using biochemical, cellular and proteomic approaches. Results demonstrated that DCA is relatively inactive (IC50 ≥ 17 mM, 48 hr), induces apoptosis only at high concentrations (≥25 mM, 48 hr) and is not cancer cell selective. Subsequent 2D‐PAGE proteomic analysis confirmed DCA‐induced growth suppression without apoptosis induction. Furthermore, DCA depolarizes mitochondria and promotes reactive oxygen species (ROS) generation in all cell types. However, DCA was found to have selective activity against rho(0) cells [mitochondrial DNA (mtDNA) deficient] and to synergize with 2‐deoxyglucose in complex IV deficient HCT116 p53(−/−) cells. DCA also synergized in vitro with cisplatin and topotecan, two antineoplastic agents known to damage mitochondrial DNA. These data suggest that in cells “hardwired” to selectively utilize glycolysis for ATP generation (e.g., through mtDNA mutations), the ability of DCA to force oxidative phosphorylation confers selective toxicity. In conclusion, although we provide a mechanism distinct from that reported previously, the ability of DCA to target cell lines with defects in the electron transport chain and to synergize with existing chemotherapeutics supports further preclinical development.

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Analysis of brefeldin A and the prodrug breflate in plasma by gas chromatography with mass selective detection

Phillips

Wolfe

Malspeis

et al. 1998

Journal of Pharmaceutical and Biomedical Analysis

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Identification of the principal circulating metabolite of a synthetic 5,4′-diaminoflavone (NSC 686288), an antitumor agent, in the rat

Phillips¹,

Bramhall²,

Buckley³

et al. 2000

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Tracy L. Wolfe

Modulation of HIV-like particle assemblyin vitroby inositol phosphates

Sodium dichloroacetate selectively targets cells with defects in the mitochondrial ETC

Analysis of brefeldin A and the prodrug breflate in plasma by gas chromatography with mass selective detection

Identification of the principal circulating metabolite of a synthetic 5,4′-diaminoflavone (NSC 686288), an antitumor agent, in the rat

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