Jillian E. Lowe scite author profile

We have used the comet assay (single cell gel electrophoresis) to measure nitric oxide-induced DNA damage in rat islets of Langerhans and insulin-containing HIT-T15 cells. Damage was induced following treatment with the nitric oxide donor SIN-l, which also releases superoxide, but was not reduced by exogenous superoxide dismutase, suggesting that nitric oxide itself, rather than superoxide or peroxynitrite may be the active species. The DNA damaging effect of nitric oxide was easily detectable at the earliest time point tested (15 min). Damage also resulted following induction of nitric oxide synthase by the cytokine interleukin-I/? in both islets and HIT-T15 cells and was prevented by replacing the substrate, arginine, with nitromonomethyl arginine. Thus intracellular levels of nitric oxide generated by interleukin-l/l-induced nitric oxide synthase were sufficient to cause DNA damage in islet cells and HIT-T15 cells.

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Correlation of Uvc and Uvb Cytotoxicity With the Induction of Specific Photoproducts in T‐lymphocytes and Fibroblasts From Normal Human Donors

Clingen

Arlett

Cole

et al. 1995

Photochem & Photobiology

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By using specific monoclonal antibodies in situ and a computer-assisted image analysis system we have determined the relative induction of cyclobutane dimers, (6-4) photoproducts and Dewar isomers in human mononuclear cells and fibroblasts following irradiation with UVC, broad-spectrum UVB and narrow-spectrum UVB. The lamps produced these lesions in different proportions, with broad-spectrum UVB inducing a greater combined yield of (6-4) photoproducts and Dewar isomers per cyclobutane dimer than UVC or narrow-spectrum UVB. The relative induction ratios of (6-4) photoproducts compared to cyclobutane dimers were 0.15, 0.21 and 0.10 following irradiation with UVC, broad- or narrow-spectrum UVB, respectively. Although Dewar isomers were induced by UVC, their relative rate of formation compared to cyclobutane dimers was significantly greater after irradiation with either broad-spectrum or narrow-spectrum UVB. These values were 0.001, 0.07 and 0.07, respectively. With each lamp source, we have determined the survival of normal human T-lymphocytes and fibroblasts at fluences, which induce equivalent yields of cyclobutane dimers, (6-4) photoproducts or (6-4) photoproducts plus Dewar isomers. Killing of fibroblasts appears to be associated with (6-4) photoproduct formation, whereas killing of T-lymphocytes seems to be mediated by combined (6-4) plus Dewar yields. These results emphasize the need to study the biological effects of UVB because cellular responses may be different from those following UVC irradiation.

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UV damage causes uncontrolled DNA breakage in cells from patients with combined features of XP-D and Cockayne syndrome

Berneburg

Lowe

Nardò

et al. 2000

EMBO J

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Nucleotide excision repair (NER) removes damage from DNA in a tightly regulated multiprotein process. Defects in NER result in three different human disorders, xeroderma pigmentosum (XP), trichothiodystrophy (TTD) and Cockayne syndrome (CS). Two cases with the combined features of XP and CS have been assigned to the XP-D complementation group. Despite their extreme UV sensitivity, these cells appeared to incise their DNA as efficiently as normal cells in response to UV damage. These incisions were, however, uncoupled from the rest of the repair process. Using cell-free extracts, we were unable to detect any incision activity in the neighbourhood of the damage. When irradiated plasmids were introduced into unirradiated XP-D/CS cells, the ectopically introduced damage triggered the induction of breaks in the undamaged genomic DNA. XP-D/CS cells thus have a unique response to sensing UV damage, which results in the introduction of breaks into the DNA at sites distant from the damage. We propose that it is these spurious breaks that are responsible for the extreme UV sensitivity of these cells.

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UV-C sensitivity of unstimulated and stimulated human lymphocytes from normal and xeroderma pigmentosum donors in the comet assay: A potential diagnostic technique

Green¹,

Lowe

Harcourt

et al. 1992

Mutation Research/DNA Repair

145

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Effect of diet and vitamin C on DNA strand breakage in freshly-isolated human white blood cells

Green

Lowe

Waugh

et al. 1994

Mutation Research/DNAging

122

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Linoleic acid and antioxidants protect against DNA damage and apoptosis induced by palmitic acid

Beeharry

Lowe

Hernandez

et al. 2003

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Tumor Necrosis Factor-α and Interferon-γ Inhibit Insulin Secretion and Cause DNA Damage in Unweaned-Rat Islets: Extent of Nitric Oxide Involvement

Dunger

Cunningham²,

Delaney³

et al. 1996

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Nitric oxide has been implicated as one possible mediator of interleukin-1 beta (IL-1)-induced inhibition of insulin secretion and islet cell damage. The aim of this study was to define the effects of tumor necrosis factor-alpha (TNF) and interferon-gamma (IFN) on nitric oxide production, insulin secretion, and DNA damage in islets from unweaned rats. Treatment of islets with 0.5-500 U/ml of either TNF or IFN on their own inhibited glucose-stimulated insulin secretion in a dose-dependent manner (minimum effective dose 5 U/ml). In combination, the cytokines exerted a pronounced synergistic inhibitory effect on secretion and were equipotent at causing a significant and concentration-dependent increase in culture medium nitrite levels, islet cyclic GMP formation, and DNA damage. Used alone or in combination, TNF and IFN significantly enhanced the activity of inducible nitric oxide synthase as determined by measuring the conversion of 14C-labeled arginine to 14C-labeled citrulline and nitric oxide. Use of arginine-free medium, without or with NG-monomethyl-L-arginine, resulted in inhibition of nitrite formation by 5-1,000 U/ml IFN+TNF and partial restoration of the insulin secretory response to glucose. Treatment of rat islets with increasing doses of TNF+IFN (5, 50, and 500 U/ml) resulted in a progressive increase in DNA damage, as shown by the comet assay, which detects DNA strand breaks in individual islet cells. The DNA damage caused by an intermediate concentration (50 U/ml) of TNF+IFN was comparable to that generated by IL-1 when used at 20 U/ml. We conclude that TNF and IFN induce nitric oxide formation, which partially inhibits glucose-induced insulin secretion and causes significant DNA strand breakage, but that as cytokine concentrations increase, non-nitric-oxide-mediated events predominate.

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Oxidative DNA damage induced by high glucose and its suppression in human umbilical vein endothelial cells

Shimoi

Okitsu

Green

et al. 2001

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Jillian E. Lowe

Endogenous nitric oxide induced by interleukin‐1β in rat islets of Langerhans and HIT‐T15 cells causes significant DNA damage as measured by the ‘comet’ assay

Correlation of Uvc and Uvb Cytotoxicity With the Induction of Specific Photoproducts in T‐lymphocytes and Fibroblasts From Normal Human Donors

UV damage causes uncontrolled DNA breakage in cells from patients with combined features of XP-D and Cockayne syndrome

UV-C sensitivity of unstimulated and stimulated human lymphocytes from normal and xeroderma pigmentosum donors in the comet assay: A potential diagnostic technique

Effect of diet and vitamin C on DNA strand breakage in freshly-isolated human white blood cells

Linoleic acid and antioxidants protect against DNA damage and apoptosis induced by palmitic acid

Tumor Necrosis Factor-α and Interferon-γ Inhibit Insulin Secretion and Cause DNA Damage in Unweaned-Rat Islets: Extent of Nitric Oxide Involvement

Oxidative DNA damage induced by high glucose and its suppression in human umbilical vein endothelial cells

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