[al-Khafaji B, Kralovic S, Smith RD. (1997). Increased hepatic iron in the acquired immunodeficiency syndrome: an autopsy study. Mod Pathol10: 474–480.]Search in Google Scholar
[Amit A, Chaudhary R, Yadav A, Suman SS, Narayan S, Das VN, Pandey K, Singh SK, Singh BK, Ali V, Das P, Bimal S. (2014). Evaluation of Leishmania donovani disulfide isomerase as a potential target of cellular immunity against visceral leishmaniasis. Cell Immunol289: 76–85.]Search in Google Scholar
[Berridge MV, Herst PM, Tan AS. (2005). Tetrazolium dyes as tools in cell biology: new insights into their cellular reduction. Biotechnol Annu Rev11: 127–152.]Search in Google Scholar
[Brown DM, Johnston H, Gubbins E, Stone V. (2014). Serum enhanced cytokine responses of macrophages to silica and iron oxide particles and nanomaterials: a comparison of serum to lung lining fluid and albumin dispersions. J Appl Toxicol34: 1177–1187.]Search in Google Scholar
[Coimbra JT, Moniz T, Brás NF, Ivanova G, Fernandes PA, Ramos MJ, Rangel M. (2014). Relevant interactions of antimicrobial iron chelators and membrane models revealed by nuclear magnetic resonance and molecular dynamics simulations. J Phys Chem B118: 14590–14601.]Search in Google Scholar
[Cronje L, Bornman L. (2005). Iron overload and tuberculosis: a case for iron chelation therapy. Int J Tuberc Lung Dis9: 2–9.]Search in Google Scholar
[da Silva DD, Silva E, Carmo H. (2014). Combination effects of amphetamines under hyperthermia – the role played by oxidative stress. J Appl Toxicol34: 637–650.]Search in Google Scholar
[Decaens C, Durand M, Grosse B, Cassio D. (2008). Which in vitro models could be best used to study hepatocyte polarity? Biol Cell100: 387–398.10.1042/BC2007012718549352]Search in Google Scholar
[Decker T, Lohmann-Matthes ML. (1988). A quick and simple method for the quantitation of lactate dehydrogenase release in measurements of cellular cytotoxicity and tumor necrosis factor (TNF) activity. J Immunol Methods115: 61–69.]Search in Google Scholar
[Dias da Silva D, Carmo H, Silva E. (2013). The risky cocktail: what combination effects can we expect between ecstasy and other amphetamines? Arch Toxicol87: 111–122.10.1007/s00204-012-0929-923001138]Search in Google Scholar
[Dykens JA, Jamieson JD, Marroquin LD, Nadanaciva S, Xu JJ, Dunn MC, Smith AR, Will Y. (2008). In vitro assessment of mitochondrial dysfunction and cytotoxicity of nefazodone, trazodone, and buspirone. Toxicol Sci103: 335–345.]Search in Google Scholar
[Fernandes SS1, Nunes A, Gomes AR, de Castro B, Hider RC, Rangel M, Appelberg R, Gomes MS. (2010). Identification of a new hexadentate iron chelator capable of restricting the intramacrophagic growth of Mycobacterium avium. Microbes Infect12: 287–294.]Search in Google Scholar
[Fotakis G, Timbrell JA. (2006). In vitro cytotoxicity assays: comparison of LDH, neutral red, MTT and protein assay in hepatoma cell lines following exposure to cadmium chloride. Toxicol Lett160: 171–177.]Search in Google Scholar
[Gerets HH, Hanon E, Cornet M, Dhalluin S, Depelchin O, Canning M, Atienzar FA. (2009). Selection of cytotoxicity markers for the screening of new chemical entities in a pharmaceutical context: a preliminary study using a multiplexing approach. Toxicol in Vitro23: 319–332.]Search in Google Scholar
[Gomes MS, Dom G, Pedrosa J, Boelaert JR, Appelberg R. (1999). Effects of iron deprivation on Mycobacterium avium growth. Tuber Lung Dis79: 321–328.]Search in Google Scholar
[Hynes J, Nadanaciva S, Swiss R, Carey C, Kirwan S, Will Y. (2013). A high-throughput dual parameter assay for assessing drug-induced mitochondrial dysfunction provides additional predictivity over two established mitochondrial toxicity assays. Toxicol in Vitro27: 560–569.]Search in Google Scholar
[Knasmüller S, Mersch-Sundermann V, Kevekordes S, Darroudi F, Huber WW, Hoelzl C, Bichler J, Majer BJ. (2004). Use of human-derived liver cell lines for the detection of environmental and dietary genotoxicants; current state of knowledge. Toxicology198: 315–328.]Search in Google Scholar
[Mersch-Sundermann V, Knasmüller S, Wu XJ, Darroudi F, Kassie F. (2004). Use of a human-derived liver cell line for the detection of cytoprotective, antigenotoxic and cogenotoxic agents. Toxicology198: 329–340.]Search in Google Scholar
[Moniz T, Coimbra JTS, Brás NF, Cunha-Silva L, Ramos MJ, Fernandes PA, de Castrob B, Rangel M. (2016a). Synthesis and structural characterization, by spectroscopic and computational methods, of two fluorescent 3-hydroxy-4-pyridinone chelators bearing sulphorhodamine B and naphthalene. RSC Advances6: 4200–4211.10.1039/C5RA23217A]Search in Google Scholar
[Moniz T, de Castro B, Rangel M, Ivanova G. (2016b). NMR study of the interaction of fluorescent 3-hydroxy-4-pyridinone chelators with DMPC liposomes. Phys Chem Chem Phys18: 5027–5033.10.1039/C5CP05273D26812137]Search in Google Scholar
[Moniz T, Feio M, Silva D, de Castro B, Range M. (2018). Study of the effect of thiourea and N-ethyl groups on antibacterial activity of rhodamine-labelled 3,4-HPO iron Chelators against Gram (+/−) bacteria. Med Chem Res27: 1472–1477.]Search in Google Scholar
[Moniz T, Leite A, Silva T, Gameiro P, Gomes MS, de Castro B, Rangel M. (2017). The influence of functional groups on the permeation and distribution of antimycobacterial rhodamine chelators. J Inorg Biochem175: 138–147.]Search in Google Scholar
[Moniz T, Nunes A, Silva AM, Queirós C, Ivanova G, Gomes MS, Rangel M. (2013). Rhodamine labeling of 3-hydroxy-4-pyridinone iron chelators is an important contribution to target Mycobacterium avium infection. J Inorg Biochem121: 156–166.]Search in Google Scholar
[Moniz T, Silva D, Silva T, Salomé Gomes M, Rangel M. (2015). Antimycobacterial activity of rhodamine 3,4-HPO iron chelators against Mycobacterium avium: analysis of the contribution of functional groups and of chelator's combination with ethambutol. MedChemComm6: 2194–2203.]Search in Google Scholar
[Moreira AC. (2013). Phytoestrogens as Alternative to the Hormone Replacement Therapy: Mitochondrial and Cellular Interactions. PhD thesis in Bio-Sciences, Faculty of Sciences and Technology, University of Coimbra.]Search in Google Scholar
[Nunes A, Podinovskaia M, Leite A, Gameiro P, Zhou T, Ma Y, Kong X, Schaible UE, Hider RC, Rangel M. (2010). Fluorescent 3-hydroxy-4-pyridinone hexadentate iron chelators: intracellular distribution and the relevance to anti-mycobacterial properties. J Biol Inorg Chem15: 861–877.]Search in Google Scholar
[Rajapakse N, Silva E, Scholze M, Kortenkamp A. (2004). Deviation from Additivity with Estrogenic Mixtures Containing 4-Nonylphenol and 4-tert-Octylphenol Detected in the E-SCREEN Assay. Environ Sci Technol38: 6343–6352.]Search in Google Scholar
[Renvoisé A, Brossier F, Galati E, Veziris N, Sougakoff W, Aubry A, Robert J, Cambau E, Jarlier V, Bernard C. (2015). Assessing primary and secondary resistance to clarithromycin and amikacin in infections due to Mycobacterium avium complex. Antimicrob Agents Chemother59: 7153–7155.]Search in Google Scholar
[Sassa S, Sugita O, Galbraith RA, Kappas A. (1987). Drug metabolism by the human hepatoma cell, Hep G2. Biochem Biophys Res Commun143: 52–57.]Search in Google Scholar
[Silva-Gomes S, Vale-Costa S, Appelberg R, Gomes MS. (2013). Iron in intracellular infection: to provide or to deprive? Front Cell Infect Microbiol3: Article 96, 91–11.10.3389/fcimb.2013.00096385636524367768]Search in Google Scholar
[Smith SM, Wunder MB, Norris DA, Shellman YG.. (2011). A simple protocol for using a LDH-based cytotoxicity assay to assess the effects of death and growth inhibition at the same time. PLoS One6: e26908.]Search in Google Scholar
[Swiss R, Will Y. (2011). Assessment of mitochondrial toxicity in HepG2 cells cultured in high-glucose- or galactose-containing media. Curr Protoc Toxicol. John Wiley & Sons, Inc., Chapter 2, Unit2.20.10.1002/0471140856.tx0220s4921818751]Search in Google Scholar
[Thompson KH, Barta CA, Orvig C. (2006). Metal complexes of maltol and close analogues in medicinal inorganic chemistry. Chem Soc Rev35: 545–556.]Search in Google Scholar
[van Meerloo J, Kaspers GJ, Cloos J. (2011). Cell sensitivity assays: the MTT assay. Methods Mol Biol731: 237–245.]Search in Google Scholar
[von Eyben FE, Madsen EL, Blaabjerg O, Petersen PH, von der Maase H, Jacobsen GK, Rørth M. (2001). Serum lactate dehydrogenase isoenzyme 1 and relapse in patients with nonseminomatous testicular germ cell tumors clinical stage I. Acta Oncol40: 536–540.]Search in Google Scholar
[Weyermann J, Lochmann D, Zimmer A. (2005). A practical note on the use of cytotoxicity assays. Int J Pharm288: 369–376.]Search in Google Scholar
