In vitro toxicity testing of phthalocyanines on different cell lines using a continuous laser source

Maduray, Kaminee

January 2010

Submitted in fulfilment of the requirements of the Degree of Master of Technology: Biotechnology, Durban University of Technology, 2010. / Photodynamic therapy is a promising treatment for cancer. It involves the combination of a photosensitizer and light of an appropriate wavelength (laser source) to cause the destruction of cancer cells. Phthalocynanines are second–generation photosensitizers with enhanced photophysical and photochemical properties. In this in vitro study the effect of aluminium (AlTSPc) or zinc (ZnTSPc) tetrasulfophthalocyanines in its inactive and active state (laser induced) on melanoma (skin cancer cells), fibroblast (healthy normal skin cells) and keratinocyte (healthy normal skin cells) cells was evaluated. For each of the cell lines approximately 3 x 104 cells/ml were seeded onto 24-well cell culture plates and allowed to attach overnight, after which cells were treated with different concentrations of AlTSPc or ZnTSPc. The photosensitizers were synthesized at Rhodes University. After 2 hrs, cells were irradiated with a diode laser at a wavelength of 672 nm and a beam diameter of 1 cm. The laser power varied between 20-30 mW and the irradiation time was calculated to deliver a light dose of 4.5 J/cm2. Post-irradiated cells were incubated for 24 hrs before cell viability was measured using the CellTiter-BlueTM Viability Assay. Also, the efficacy of the light dose and laser source used for the killing of approximately 50% of the melanoma cancer cells were investigated. AlTSPc and ZnTSPc decreased cell viability of melanoma cancer cells to approximately 50% with photosensitizer concentrations of 40 μg/ml and 50 μg/ml respectively. These photosensitizer concentrations caused a slight decrease in the percentage cell viability of fibroblast and keratinocyte cells. Results for the dark toxicity assay showed that iii both photosensitizers in the presence of high concentrations (60 μg/ml – 100 μg/ml) showed cytotoxicity effects on melanoma cancer cells in their inactive state. This was not observed in fibroblast and keratinocyte cells treated under the same experimental conditions. The optimal AlTSPc and ZnTSPc concentrations in combination with the light dose of 4.5 J/cm2 was the most efficient in killing the melanoma cancer cells with reduced killing effects on healthy normal fibroblast and keratinocyte cells when compared to other light doses (2.5 J/cm2, 7.5 J/cm2 and 10 J/cm2). The irradiation of cells photosensitized with the optimal photosensitizer concentrations with a femtosecond laser using similar laser parameters to continuous wave laser experiments resulted in a reduction in the cell viability of healthy normal fibroblast and keratinocyte cells compared to melanoma cancer cells. The presence of DNA degradation on agarose gel, morphological changes like blebbing and ultrastructural changes like nucleus condensation indicated that photodynamic therapy treated melanoma cancer cells with the optimal concentrations of AlTSPc and ZnTSPc induced cell death via apoptosis. This concludes that low concentrations of AlTSPc and ZnTSPc activated with an appropriate laser source can be used to induce cell death in melanoma cancer cells. Both AlTSPc and ZnTSPc exhibit the potential to be used as a photosensitizer in photodynamic therapy for the treatment of melanoma cancer with the occurrence of minimal damage to surrounding healthy tissue.

Biotechnology

Phthalocyanines

Toxicity testing--In vitro

Cell lines

Lasers

Use of Systems Biology in Deciphering Mode of Action and Predicting Potentially Adverse Health Outcomes of Nanoparticle Exposure, Using Carbon Black as a Model

Bourdon, Julie A.

26 July 2012

Nanoparticles (particles less than 100 nm in at least one dimension) exhibit chemical properties that differ from their bulk counterparts. Furthermore, they exhibit increased potential for systemic toxicities due to their deposition deep within pulmonary tissue upon inhalation. Thus, standard regulatory assays alone may not always be appropriate for evaluation of their full spectrum of toxicity. Systems biology (e.g., the study of molecular processes to describe a system as a whole) has emerged as a powerful platform proposed to provide insight in potential hazard, mode of action and human disease relevance. This work makes use of systems biology to characterize carbon black nanoparticle-induced toxicities in pulmonary and extra-pulmonary tissues (i.e., liver and heart) in mice over dose and time. This includes investigations of gene expression profiles, microRNA expression profiles, tissue-specific phenotypes and plasma proteins. The data are discussed in the context of potential use in human health risk assessment. In general, the work provides an example of how toxicogenomics can be used to support human health risk assessment.

Nanotoxicology

Systems Biology

Toxicogenomics

Toxicity Testing in the 21st Century

The development of preliminary laboratory based culture methods for selected macro-invertebrates used in sediment toxicity testing

27 January 2014

M.Sc. (Aquatic Health) / Sediments can contain a variety of organic and inorganic contaminants. These contaminants accumulate, resulting in extremely high concentrations even once the overlying water concentrations are at or below acceptable water quality guidelines. Any changes in the physical parameters'of the overlying water can cause these pollutants to be released back into solution. Accumulated contaminants can be released at even higher concentrations than previously detected. In recent years, sediment contamination has highlighted the need to monitor these previously overlooked pollutant sources that have accumulated in aquatic ecosystems. South Africa does not currently have standardised methods to assess sediment toxicity. Although international methods exist, they are largely untested in South Africa and the organisms needed to conduct these tests are not readily available. Over the years numerous culture methods have been develop globally for culturing organism to be used for water and sediment toxicity tests. In South Africa, the focus has mainly been on culturing organisms for water. toxicity testing. Sediment toxicity testing with indigenous organism however, was not developed. Established international culture methods from the United States Environmental Protection Agency, the Organisation for Economic Cooperation and Development, and Environment Canada were taken into consideration when developing the laboratory culture method for two (2)of the selected organisms (Chironomus spp. & Hydra sp.) from this study. A preliminary culture method was also developed for the third selected organism, Melanoides tuberculata (gastropod). The organisms cultured in this study were selected based on their extent of contact with the substrate, ease of handling, availability, culture maintenance as well as their reproductive cycle. The Hydra, Chironomids and M. tuberculata cultures were successfully breeding under laboratory conditions and remained stable. The Chironomus sp. and M. tuberculata maintain contact with the sediment making them suitable as ecologically relevant organisms for use in whole sediment toxicity testing in South Africa.

Sediment control - South Africa

Toxicity testing - South Africa

Leveraging Knowledge-Based Approaches to Promote Antiretroviral Toxicity Monitoring in Underserved Settings

Ogallo, William

January 2017

As access and use of antiretroviral therapy continue to increase, the need to improve antiretroviral toxicity monitoring becomes more critical. This is particularly so in underserved settings, where patterns of antiretroviral toxicities possibly alter the need for and frequency of antiretroviral toxicity monitoring. However, barriers such as few skilled healthcare providers and poor infrastructure make antiretroviral toxicity monitoring in underserved settings difficult. The purpose of this dissertation was to investigate how standard clinical guidelines, knowledge-based clinical decision support, and task delegation could be leveraged to overcome barriers to antiretroviral toxicity monitoring in underserved settings. The strategy adopted in this dissertation was guided by the Design Science Research Methodology that emphasizes the generation of scientific knowledge through building novel artifacts. Two qualitative descriptive studies were conducted to characterize the contextual factors associated with antiretroviral toxicity monitoring in underserved settings. Supported by the findings from these studies, a knowledge-based software application prototype that implements clinical practice guidelines for antiretroviral toxicity monitoring was developed. Next, a quantitative validation study was used to evaluate the structure and behavior of the prototype’s knowledge base. Lastly, a quantitative usability study was conducted to assess lay health worker perceptions of the satisfaction and mental effort associated with the use of checklists generated by the prototype. This dissertation research produced empirical evidence about the broad motives and strategies for promoting medication adherence, safety, and effectiveness in underserved settings. It also identified barriers and facilitators of antiretroviral toxicity monitoring within ambulatory HIV care workflows in underserved settings. Additionally, it provided evidence about the extent to which antiretroviral toxicity domain knowledge could be implemented in a knowledge-based application for supporting point-of-care antiretroviral toxicity monitoring. Lastly, the research provided previously unavailable empirical evidence about the perceptions of lay peer health workers on the use of checklists for the documentation of antiretroviral toxicities.

Medical sciences

Information science

Antiretroviral agents

Toxicity testing

Bioinformatics

Investigations into mechanisms of paracetamol-induced toxicity using ìn vitro' systems

Bruschi, Sam A. (Sam Anthony)

January 1987

Bibliography: leaves 116-138.

Acetaminophen Toxicology

Liver cells Effect of drugs on

Toxicity testing In vitro

Development of comparitive methods for chemical analysis and in vitro cytotoxicity testing of contaminated sites

Manglik, Aparna, Safety Science, Faculty of Science, UNSW

January 2006

This project developed methodology for in vitro toxicity assessment of contaminated sites using the Promega?? MTS [3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxy-methoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium] assay performed on human cells (HepG2 and Skin fibroblasts). The project included the development of a method for extracting contaminants from soil based on leaching and centrifugation. A number of solvents and surfactants were assessed for their suitability as extracting agents. The Zwitterionic surfactant CHAPS ({3[(3-Cholamidopropyl) dimethylammonio] propanesulphonic acid}), which is an irritant in vivo, was found suitable for in vitro toxicity assessment applications. CHAPS was found to be the least toxic surfactant in vitro when tested on skin fibroblasts (NOEC: 1800??577 ppm, IC50: 4000??577 ppm) and HepG2 cells (NOEC: 833??289 ppm, IC50: 5300??287 ppm). The chosen surfactant was used in three different methods for extraction of Toluene and Xylene spiked in 2 g and 10g soil. The combination comprising of 0.1% (s/w) CHAPS and cosolvent 1% (w/w) Isopropanol, at their respective NOEC (No Observed Effective Concentration) toxicity values, showed good recovery of the nonpolar organic compounds in comparison to the recovery by 0.1% CHAPS and 0.5% CHAPS. The study found additive interactions to be the most common form of toxicity for 16 concentration combinations of Formaldehyde (polar), Toluene and Xylene (nonpolar) when compared to predicted toxicity (R2=0.943, P&lt0.0001). When assessing the in vitro toxicity of unknown (blind) contaminated soil samples, the Hazard Index (HI) predicted from the chemical analyses results showed a relatively good correlation (R2&gt0.7062, n=26) when compared to the experimental toxicity results on HepG2 cells. Furthermore, the comparison of Australian Health Investigation Levels (HIL) with in vitro toxicity testing gave similar correlation (R2&gt0.6882, n=26) on HepG2 cells. The overall project suggests the potential application of the zwitterionic surfactant (CHAPS) in sampling contaminants from soils in an in vitro toxicity assessment. This study demonstrates the application of in vitro toxicity assessment using human cells for the prediction of toxic risk as a sentinel to human toxicity from a contaminated site.

Toxicity testing - In vitro

Soil pollution

Use of Systems Biology in Deciphering Mode of Action and Predicting Potentially Adverse Health Outcomes of Nanoparticle Exposure, Using Carbon Black as a Model

Bourdon, Julie A.

26 July 2012

Nanoparticles (particles less than 100 nm in at least one dimension) exhibit chemical properties that differ from their bulk counterparts. Furthermore, they exhibit increased potential for systemic toxicities due to their deposition deep within pulmonary tissue upon inhalation. Thus, standard regulatory assays alone may not always be appropriate for evaluation of their full spectrum of toxicity. Systems biology (e.g., the study of molecular processes to describe a system as a whole) has emerged as a powerful platform proposed to provide insight in potential hazard, mode of action and human disease relevance. This work makes use of systems biology to characterize carbon black nanoparticle-induced toxicities in pulmonary and extra-pulmonary tissues (i.e., liver and heart) in mice over dose and time. This includes investigations of gene expression profiles, microRNA expression profiles, tissue-specific phenotypes and plasma proteins. The data are discussed in the context of potential use in human health risk assessment. In general, the work provides an example of how toxicogenomics can be used to support human health risk assessment.

Nanotoxicology

Systems Biology

Toxicogenomics

Toxicity Testing in the 21st Century

Toxicity of boron compounds in the Formosan subterranean termite, Coptotermes formosanus Shiraki (Isoptera: Rhinotermitidae)

Gentz, Margaret C

January 2007

Thesis (M.S.)--University of Hawaii at Manoa, 2007. / Includes bibliographical references (leaves 41-45). / v, 45 leaves, bound 29 cm

Development of comparitive methods for chemical analysis and in vitro cytotoxicity testing of contaminated sites

Manglik, Aparna, Safety Science, Faculty of Science, UNSW

January 2006

This project developed methodology for in vitro toxicity assessment of contaminated sites using the Promega?? MTS [3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxy-methoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium] assay performed on human cells (HepG2 and Skin fibroblasts). The project included the development of a method for extracting contaminants from soil based on leaching and centrifugation. A number of solvents and surfactants were assessed for their suitability as extracting agents. The Zwitterionic surfactant CHAPS ({3[(3-Cholamidopropyl) dimethylammonio] propanesulphonic acid}), which is an irritant in vivo, was found suitable for in vitro toxicity assessment applications. CHAPS was found to be the least toxic surfactant in vitro when tested on skin fibroblasts (NOEC: 1800??577 ppm, IC50: 4000??577 ppm) and HepG2 cells (NOEC: 833??289 ppm, IC50: 5300??287 ppm). The chosen surfactant was used in three different methods for extraction of Toluene and Xylene spiked in 2 g and 10g soil. The combination comprising of 0.1% (s/w) CHAPS and cosolvent 1% (w/w) Isopropanol, at their respective NOEC (No Observed Effective Concentration) toxicity values, showed good recovery of the nonpolar organic compounds in comparison to the recovery by 0.1% CHAPS and 0.5% CHAPS. The study found additive interactions to be the most common form of toxicity for 16 concentration combinations of Formaldehyde (polar), Toluene and Xylene (nonpolar) when compared to predicted toxicity (R2=0.943, P&lt0.0001). When assessing the in vitro toxicity of unknown (blind) contaminated soil samples, the Hazard Index (HI) predicted from the chemical analyses results showed a relatively good correlation (R2&gt0.7062, n=26) when compared to the experimental toxicity results on HepG2 cells. Furthermore, the comparison of Australian Health Investigation Levels (HIL) with in vitro toxicity testing gave similar correlation (R2&gt0.6882, n=26) on HepG2 cells. The overall project suggests the potential application of the zwitterionic surfactant (CHAPS) in sampling contaminants from soils in an in vitro toxicity assessment. This study demonstrates the application of in vitro toxicity assessment using human cells for the prediction of toxic risk as a sentinel to human toxicity from a contaminated site.

Toxicity testing - In vitro

Soil pollution

The effect of short-term pretreatment with peroxisome proliferators on the acute toxicity of various toxicants, including paracetamol / Felicity April Nicholls-Grzemski.

Nicholls-Grzemski, Felicity April

January 1998

Erratum tipped in before chapter 1. / Bibliography: leaves 226-248. / xv, 248 leaves : ill. (chiefly col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Shows that pretreatment with peroxisome proliferators protects mice against the acute hepatotoxicity of paracetamol, in addition to a number of other toxicants. / Thesis (Ph.D.)--University of Adelaide, Dept. of Clinical and Experimental Pharmacology, 1999

Acetaminophen Toxicology.

Liver cells Effect of drugs on.

Toxicity testing In vitro.