Clinical Oxidative Stress during Leprosy Multidrug Therapy: Impact of Dapsone Oxidation

Schalcher, Taysa Ribeiro; Borges, Rosivaldo S.; Coleman, Michael D.; Júnior, João Batista; Salgado, Cláudio Guedes; Vieira, José Luiz Fernandes; Romão, Pedro Roosevelt Torres; Oliveira, Fábio Rodrigues de; Monteiro, Marta Chagas

doi:10.1371/journal.pone.0085712

Cited by 22 publications

(22 citation statements)

References 45 publications

(69 reference statements)

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“…The reason behind it is that Microbial killing of lepra bacilli results in produc on of free radicals like nitric oxide. 21 These fi ndings are similar to the study done by Schalcher TR et al who also reported increased produc on of nitric oxide levels in leprosy pa ents as compared to healthy controls and no change in nitric oxide levels were seen a er treatment with an leprosy drugs 11,14 It seems that the disease process itself appears to be responsible for the detected nitric oxide increase in the body irrespec ve of the an leprosytreatment. 14 Studies have tried to quan fy oxida ve stress as per evalua ng levels of various enzymes and carbonyl proteins.…”

Section: Discussionsupporting

confidence: 85%

“…The present study is a prospec ve study which includes 60 cases of healthy controls and 30 cases of leprosy pa ents. In modern era, interest has grown in inves ga ng the role played by reac ve oxygen species or oxida ve stress in leprosy leprosy by inves ga ng one or more of the oxidant markers like Malondialdehyde (MDA) and an oxidant markers, including SOD, catalase, vitamin E, vitamin C. [11][12][13][14] Lipid peroxida on is involved in pathogenesis of many disease processes when the imbalance occurs between produc on of reac ve oxygen species and protec ve an oxidant system. Malondialdehyde (MDA) is a marker of lipid peroxida on.…”

Section: Discussionmentioning

confidence: 99%

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Enzymatic Oxidative Stress Indicators and Oxidative Stress Index in Patients of Leprosy

Raka

Rastogi

Gahalaut

et al. 2018

Nepal J Dermatol Venereol & Leprol

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Introduction: Leprosy is a chronic granulomatous disease caused by Mycobacterium leprae. Oxidative stress caused by Reactive oxygen species (ROS) plays a crucial role in the pathogenesisis of leprosy.Objective: To measure the enzymatic oxidative stress indicators and oxidative stress index in patients of leprosy and compare them with healthy age & sex matched controls.Materials and Methods: In this prospective study 30 untreated leprosy patients were included in the study and matched with 60 healthy controls. Biochemistry estimation was done with blood samples and MDA (lipid peroxidation), Nitric oxide (NO), (SOD) Superoxide dismutase (antioxidant enzyme), total oxidant status (TOS), total antioxidant status(TAS) and oxidative stress index (OSI) were estimated.Results: Highly significant rise (p<0.0001) in serum MDA, NO, TOS and OSI was seen in leprosy patients when compared with controls with highly significant decline in SOD and TAS.Conclusion: The study confirms the oxidative stress in leprosy and suggests antioxidant therapy may be used as an adjuvant in the treatment of leprosy along with MDT.

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Section: Discussionsupporting

confidence: 85%

Section: Discussionmentioning

confidence: 99%

Enzymatic Oxidative Stress Indicators and Oxidative Stress Index in Patients of Leprosy

Raka

Rastogi

Gahalaut

et al. 2018

Nepal J Dermatol Venereol & Leprol

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“…CFZ has been reported to influence antioxidant capacity 44 and the production of reactive oxygen species. 45 To assay for the concentrations of some of these redox analytes (cysteine, cystine, glutathione and glutathione disulfide), samples were derivatized with 2,3-dinitrofluorobenzene followed by HPLC analysis as previously described.…”

Section: Methodsmentioning

confidence: 99%

Macrophage-Mediated Clofazimine Sequestration Is Accompanied by a Shift in Host Energy Metabolism

Trexel

Yoon

Keswani

et al. 2017

Journal of Pharmaceutical Sciences

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Prolonged (8 weeks) oral administration of clofazimine results in a profound pharmacodynamic response- bioaccumulation in macrophages (including Kupffer cells) as intracellular crystal-like drug inclusions (CLDIs) with an associated increase in interleukin-1 receptor antagonist production. Notably, CLDI formation in Kupffer cells concomitantly occurs with the formation of macrophage-centric granulomas. Accordingly, we sought to understand the impact of these events on host metabolism using 1H-nuclear magnetic resonance metabolomics. Mice received a clofazimine - or vehicle-enriched (sham) diet for at least 8 weeks. At two weeks, the antimicrobial activity of clofazimine was evident by changes in urine metabolites. From 2 to 8 weeks, there was a striking change in metabolite levels indicative of a reorientation of host energy metabolism paralleling the onset of CLDI and granuloma formation. This was evidenced by a progressive reduction in urine levels of metabolites involved in one-carbon metabolism with corresponding increases in whole blood, and changes in metabolites associated with lipid, nucleotide and amino acid metabolism, and glycolysis. Although clofazimine-fed mice ate more, they gained less weight than control mice. Together, these results indicate that macrophage sequestration of clofazimine as CLDIs and granuloma formation is accompanied by a profound metabolic disruption in energy homeostasis and one-carbon metabolism.

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“…The current strategy for leprosy control recommended by the World Health Organization (WHO) is based on multidrug therapy (MDT) that consists of the combination of rifampicin, clofazimine and dapsone (4,4'-diaminodiphenylsulfone, DDS) for multi-bacillary leprosy patients and rifampicin and DDS for pauci-bacillary leprosy patients [ 3 ]. DDS therapy is responsible for hematological adverse reactions, such as methemoglobinemia and anemia [ 6 , 7 ]. These effects are associated with the hydroxylamine metabolite of DDS (DDS-NHOH) that is formed through N-hydroxylation by hepatic cytochromes P450, particularly CYP2C9 and CYP2C19 [ 6 , 8 ].…”

Section: Introductionmentioning

confidence: 99%

“…DDS therapy is responsible for hematological adverse reactions, such as methemoglobinemia and anemia [ 6 , 7 ]. These effects are associated with the hydroxylamine metabolite of DDS (DDS-NHOH) that is formed through N-hydroxylation by hepatic cytochromes P450, particularly CYP2C9 and CYP2C19 [ 6 , 8 ]. The principal targets of hydroxylamine compounds in humans are erythrocytes, involving mainly the production of high rates of methemoglobinemia and a significant reduction in erythrocytic lifespan [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

In Vitro Protective Effect and Antioxidant Mechanism of Resveratrol Induced by Dapsone Hydroxylamine in Human Cells

Albuquerque¹,

Malcher

Amado³

et al. 2015

PLoS ONE

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Dapsone (DDS) hydroxylamine metabolites cause oxidative stress- linked adverse effects in patients, such as methemoglobin formation and DNA damage. This study evaluated the ameliorating effect of the antioxidant resveratrol (RSV) on DDS hydroxylamine (DDS-NHOH) mediated toxicity in vitro using human erythrocytes and lymphocytes. The antioxidant mechanism was also studied using in-silico methods. In addition, RSV provided intracellular protection by inhibiting DNA damage in human lymphocytes induced by DDS-NHOH. However, whilst pretreatment with RSV (10–1000 μM significantly attenuated DDS-NHOH-induced methemoglobinemia, but it was not only significantly less effective than methylene blue (MET), but also post-treatment with RSV did not reverse methemoglobin formation, contrarily to that observed with MET. DDS-NHOH inhibited catalase (CAT) activity and reactive oxygen species (ROS) generation, but did not alter superoxide dismutase (SOD) activity in erythrocytes. Pretreatment with RSV did not alter these antioxidant enzymes activities in erythrocytes treated with DDS-NHOH. Theoretical calculations using density functional theory methods showed that DDS-NHOH has a pro-oxidant effect, whereas RSV and MET have antioxidant effect on ROS. The effect on methemoglobinemia reversion for MET was significantly higher than that of RSV. These data suggest that the pretreatment with resveratrol may decrease heme-iron oxidation and DNA damage through reduction of ROS generated in cells during DDS therapy.

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Clinical Oxidative Stress during Leprosy Multidrug Therapy: Impact of Dapsone Oxidation

Cited by 22 publications

References 45 publications

Enzymatic Oxidative Stress Indicators and Oxidative Stress Index in Patients of Leprosy

Enzymatic Oxidative Stress Indicators and Oxidative Stress Index in Patients of Leprosy

Macrophage-Mediated Clofazimine Sequestration Is Accompanied by a Shift in Host Energy Metabolism

In Vitro Protective Effect and Antioxidant Mechanism of Resveratrol Induced by Dapsone Hydroxylamine in Human Cells

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