Paraquat is a pneumotoxin that causes lung injury by enhancing oxidative stress; however, the cel... more Paraquat is a pneumotoxin that causes lung injury by enhancing oxidative stress; however, the cellular responses to these redox events are undefined. We previously showed that paraquat produced selective peroxidation of phosphatidylserine that preceded apoptosis in 32D cells. We now report that the phospholipase A2 (PLA2) inhibitor quinacrine can attenuate phosphatidylserine oxidation and also block paraquat-induced apoptosis. Therefore, we investigated the potential for PLA2 to mediate apoptosis after paraquat. We found that, in contrast to quinacrine, the PLA2 inhibitors manoalide, aristolochic acid, and arachidonyl trifluoromethylketone failed to prevent paraquat-induced apoptosis. Moreover, no evidence of PLA2 activation was observed within 7 h after paraquat exposure. Finally, quinacrine failed to inhibit basal and 4-bromo-A-23187-induced release of [3H]arachidonic acid at concentrations that protected paraquat-induced apoptosis. We conclude that paraquat-induced phosphatidylse...
The Journal of pharmacology and experimental therapeutics, 2000
We previously showed that SC-alphaalphadelta9 (4-(benzyl-(2-[(2, 5-diphenyl-oxazole-4-carbonyl)-a... more We previously showed that SC-alphaalphadelta9 (4-(benzyl-(2-[(2, 5-diphenyl-oxazole-4-carbonyl)-amino]-ethyl)-carbamoyl)-2-decanoylami no butyric acid) is a novel antiphosphatase agent that selectively inhibits the growth of transformed cells in culture and affects elements of insulin-like growth factor-1 (IGF-1) signaling. We now show that SC-alphaalphadelta9 induces IGF-1-resistant apoptosis and kills tumor cells in vivo. In cultured murine 32D cells, SC-alphaalphadelta9 induced concentration-dependent apoptosis that was blocked by ectopic Bcl-2 expression. No apoptosis was detected in 32D cells treated with the congener SC-alpha109, which lacks the ability to disrupt IGF-1 signaling. After interleukin-3 withdrawal or etoposide treatment, exogenous IGF-1 prevented apoptosis and elevated levels of Cdc2, a biochemical indicator of a functional IGF-1 receptor pathway. In contrast, exogenous IGF-1 did not prevent apoptosis or loss of Cdc2 expression caused by SC-alphaalphadelta9. Furt...
Etoposide (VP-16) is one of several DNA-damaging agents that induce subcellular structural change... more Etoposide (VP-16) is one of several DNA-damaging agents that induce subcellular structural changes associated with apoptosis. VP-16 exerts its DNA-damaging and cytotoxic effects subsequent to interference with DNA topoisomerase II activity. VP-16 also stimulates c-jun and c-fos mRNA expression in some cell lines, including human leukemia K562 and HL-60 cells. To compare the temporal relationship between drug-induced c-jun expression and apoptosis, we examined cell morphology, cell viability, DNA integrity, and c-jun induction during VP-16 treatment of K562 and HL-60 cells. VP-16 (10 microM)-induced internucleosomal DNA damage and nuclear fragmentation were readily apparent within 6 hr in HL-60 cells but were absent in K562 cells treated for up to 24 hr. Some internucleosomal DNA damage was observed in K562 cells but only after treatment with 100 microM VP-16 for 24 hr. In contrast, VP-16-induced DNA single-strand breaks, VP-16-induced topoisomerase II/DNA covalent complex formation,...
Overexpression of metallothioneins (MTs) protects some cells against heavy metals, mutagens, anti... more Overexpression of metallothioneins (MTs) protects some cells against heavy metals, mutagens, anticancer agents, and reactive oxygen species. We have examined the effect of the loss of MT expression on the cytotoxicity of anticancer agents and mutagens using embryonic fibroblast cells from transgenic mice with targeted disruptions of MT I and II genes (MT -/-). MT -/- cells expressed no detectable MT. Compared to wild type cells, MT -/- cells showed enhanced sensitivity to a 2-h exposure to cisplatin, melphalan, bleomycin, cytarabine, or N-methyl-N'-nitro-N-nitrosoguanidine but were equally sensitive to doxorubicin and neocarzinostatin. Basal expression of the DNA damage-response genes, gadd 45 and gadd 153, were elevated in MT -/- cells compared to MT +/+ cells. Anticancer drug treatment, however, did not produce a greater increase in gadd 45 or gadd 153 expression in MT null cells compared to MT +/+ cells. These results support the hypothesis that endogenous MT levels affect th...
Annual Review of Pharmacology and Toxicology, 2005
The complete sequencing of the human genome is generating many novel targets for drug discovery. ... more The complete sequencing of the human genome is generating many novel targets for drug discovery. Understanding the pathophysiological roles of these putative targets and assessing their suitability for therapeutic intervention has become the major hurdle for drug discovery efforts. The dual-specificity phosphatases (DSPases), which dephosphorylate serine, threonine, and tyrosine residues in the same protein substrate, have important roles in multiple signaling pathways and appear to be deregulated in cancer and Alzheimer's disease. We examine the potential of DSPases as new molecular therapeutic targets for the treatment of human disease.
We describe here detailed protocols to design, optimize and validate in vitro phosphatase assays ... more We describe here detailed protocols to design, optimize and validate in vitro phosphatase assays that we have utilized to conduct high-throughput screens for inhibitors of dual-specificity phosphatases: CDC25B, mitogen-activated protein kinase phosphatase (MKP)-1 and MKP-3. We provide details of the critical steps that are needed to effectively miniaturize the assay into a 384-well, high-throughput format that is both reproducible and cost effective. In vitro phosphatase assays that are optimized according to these protocols should satisfy the assay performance criteria required for a robust high-throughput assay with Z-factors >0.5, and with low intra-plate, inter-plate and day-to-day variability (CV <20%). Assuming the availability of sufficient active phosphatase enzyme and access to appropriate liquid handling automation and detection instruments, a single investigator should be able to develop a 384-well format high-throughput assay in a period of 3-4 weeks.
The unicellular eukaryote Trypanosoma brucei (T. brucei) is the causative agent of human African ... more The unicellular eukaryote Trypanosoma brucei (T. brucei) is the causative agent of human African trypanosomiasis (HAT), a disease that annually infects ~500,000 people in sub-Saharan Africa resulting in 50,000 – 70,000 deaths per year. Without treatment, HAT is fatal. Unfortunately, current treatments are limited in availability, have toxic side effects, are difficult to administer and are not well characterized in terms of their mechanism of action. Thus, the lack of affordable, safe, and effective therapies for those with African trypanosomiasis makes the identification of molecular target-specific chemotypes a priority in our effort to understand the mechanisms involved with parasite growth and viability, as well as for future therapeutic development. The probe identified from this effort, ML205, is a stable, small molecule possessing submicromolar activity (IC50 = 0.98 μM) against a defined T. brucei hexokinase 1 (rTbHK1) target. The probe was not toxic to mammalian cells (IMR-9...
1. Mol Interv. 2010 Apr;10(2):72-5. Anti-leishmanial drug discovery: rising to the challenges of ... more 1. Mol Interv. 2010 Apr;10(2):72-5. Anti-leishmanial drug discovery: rising to the challenges of a highly neglected disease. Sharlow ER, Grögl M, Johnson J, Lazo JS. Drug Discovery Institute, University of Pittsburgh, Pittsburgh, PA 15260, USA. ...
The development of preclinical models amenable to live animal bioactive compound screening is an ... more The development of preclinical models amenable to live animal bioactive compound screening is an attractive approach to discovering effective pharmacological therapies for disorders caused by misfolded and aggregation-prone proteins. In general, however, live animal drug screening is labor and resource intensive, and has been hampered by the lack of robust assay designs and high throughput work-flows. Based on their small
Currently, there is a serious absence of pharmaceutically attractive small molecules that mitigat... more Currently, there is a serious absence of pharmaceutically attractive small molecules that mitigate the lethal effects of an accidental or intentional public exposure to toxic doses of ionizing radiation. Moreover, cellular systems that emulate the radiobiologically relevant cell populations and that are suitable for high-throughput screening have not been established. Therefore, we examined two human pluripotent embryonal carcinoma cell lines for use in an unbiased phenotypic small interfering RNA (siRNA) assay to identify proteins with the potential of being drug targets for the protection of human cell populations against clinically relevant ionizing radiation doses that cause acute radiation syndrome. Of the two human cell lines tested, NCCIT cells had optimal growth characteristics in a 384 well format, exhibited radiation sensitivity (D(0) = 1.3 ± 0.1 Gy and ñ = 2.0 ± 0.6) comparable to the radiosensitivity of stem cell populations associated with human death within 30 days after total-body irradiation. Moreover, they internalized siRNA after 4 Gy irradiation enabling siRNA library screening. Therefore, we used the human NCCIT cell line for the radiation mitigation study with a siRNA library that silenced 5,520 genes known or hypothesized to be potential therapeutic targets. Exploiting computational methodologies, we identified 113 siRNAs with potential radiomitigative properties, which were further refined to 29 siRNAs with phosphoinositide-3-kinase regulatory subunit 1 (p85α) being among the highest confidence candidate gene products. Colony formation assays revealed radiation mitigation when the phosphoinositide-3-kinase inhibitor LY294002 was given after irradiation of 32D cl 3 cells (D(0) = 1.3 ± 0.1 Gy and ñ = 2.3 ± 0.3 for the vehicle control treated cells compared to D(0) = 1.2 ± 0.1 Gy and ñ = 6.0 ± 0.8 for the LY294002 treated cells, P = 0.0004). LY294002 and two other PI3K inhibitors, PI 828 and GSK 1059615, also mitigated radiation-induced apoptosis in NCCIT cells. Treatment of mice with a single intraperitoneal LY294002 dose of 30 mg/kg at 10 min, 4, or 24 h after LD(50/30) whole-body dose of irradiation (9.25 Gy) enhanced survival. This study documents that an unbiased siRNA assay can identify new genes, signaling pathways, and chemotypes as radiation mitigators and implicate the PI3K pathway in the human radiation response.
Paraquat is a pneumotoxin that causes lung injury by enhancing oxidative stress; however, the cel... more Paraquat is a pneumotoxin that causes lung injury by enhancing oxidative stress; however, the cellular responses to these redox events are undefined. We previously showed that paraquat produced selective peroxidation of phosphatidylserine that preceded apoptosis in 32D cells. We now report that the phospholipase A2 (PLA2) inhibitor quinacrine can attenuate phosphatidylserine oxidation and also block paraquat-induced apoptosis. Therefore, we investigated the potential for PLA2 to mediate apoptosis after paraquat. We found that, in contrast to quinacrine, the PLA2 inhibitors manoalide, aristolochic acid, and arachidonyl trifluoromethylketone failed to prevent paraquat-induced apoptosis. Moreover, no evidence of PLA2 activation was observed within 7 h after paraquat exposure. Finally, quinacrine failed to inhibit basal and 4-bromo-A-23187-induced release of [3H]arachidonic acid at concentrations that protected paraquat-induced apoptosis. We conclude that paraquat-induced phosphatidylse...
The Journal of pharmacology and experimental therapeutics, 2000
We previously showed that SC-alphaalphadelta9 (4-(benzyl-(2-[(2, 5-diphenyl-oxazole-4-carbonyl)-a... more We previously showed that SC-alphaalphadelta9 (4-(benzyl-(2-[(2, 5-diphenyl-oxazole-4-carbonyl)-amino]-ethyl)-carbamoyl)-2-decanoylami no butyric acid) is a novel antiphosphatase agent that selectively inhibits the growth of transformed cells in culture and affects elements of insulin-like growth factor-1 (IGF-1) signaling. We now show that SC-alphaalphadelta9 induces IGF-1-resistant apoptosis and kills tumor cells in vivo. In cultured murine 32D cells, SC-alphaalphadelta9 induced concentration-dependent apoptosis that was blocked by ectopic Bcl-2 expression. No apoptosis was detected in 32D cells treated with the congener SC-alpha109, which lacks the ability to disrupt IGF-1 signaling. After interleukin-3 withdrawal or etoposide treatment, exogenous IGF-1 prevented apoptosis and elevated levels of Cdc2, a biochemical indicator of a functional IGF-1 receptor pathway. In contrast, exogenous IGF-1 did not prevent apoptosis or loss of Cdc2 expression caused by SC-alphaalphadelta9. Furt...
Etoposide (VP-16) is one of several DNA-damaging agents that induce subcellular structural change... more Etoposide (VP-16) is one of several DNA-damaging agents that induce subcellular structural changes associated with apoptosis. VP-16 exerts its DNA-damaging and cytotoxic effects subsequent to interference with DNA topoisomerase II activity. VP-16 also stimulates c-jun and c-fos mRNA expression in some cell lines, including human leukemia K562 and HL-60 cells. To compare the temporal relationship between drug-induced c-jun expression and apoptosis, we examined cell morphology, cell viability, DNA integrity, and c-jun induction during VP-16 treatment of K562 and HL-60 cells. VP-16 (10 microM)-induced internucleosomal DNA damage and nuclear fragmentation were readily apparent within 6 hr in HL-60 cells but were absent in K562 cells treated for up to 24 hr. Some internucleosomal DNA damage was observed in K562 cells but only after treatment with 100 microM VP-16 for 24 hr. In contrast, VP-16-induced DNA single-strand breaks, VP-16-induced topoisomerase II/DNA covalent complex formation,...
Overexpression of metallothioneins (MTs) protects some cells against heavy metals, mutagens, anti... more Overexpression of metallothioneins (MTs) protects some cells against heavy metals, mutagens, anticancer agents, and reactive oxygen species. We have examined the effect of the loss of MT expression on the cytotoxicity of anticancer agents and mutagens using embryonic fibroblast cells from transgenic mice with targeted disruptions of MT I and II genes (MT -/-). MT -/- cells expressed no detectable MT. Compared to wild type cells, MT -/- cells showed enhanced sensitivity to a 2-h exposure to cisplatin, melphalan, bleomycin, cytarabine, or N-methyl-N'-nitro-N-nitrosoguanidine but were equally sensitive to doxorubicin and neocarzinostatin. Basal expression of the DNA damage-response genes, gadd 45 and gadd 153, were elevated in MT -/- cells compared to MT +/+ cells. Anticancer drug treatment, however, did not produce a greater increase in gadd 45 or gadd 153 expression in MT null cells compared to MT +/+ cells. These results support the hypothesis that endogenous MT levels affect th...
Annual Review of Pharmacology and Toxicology, 2005
The complete sequencing of the human genome is generating many novel targets for drug discovery. ... more The complete sequencing of the human genome is generating many novel targets for drug discovery. Understanding the pathophysiological roles of these putative targets and assessing their suitability for therapeutic intervention has become the major hurdle for drug discovery efforts. The dual-specificity phosphatases (DSPases), which dephosphorylate serine, threonine, and tyrosine residues in the same protein substrate, have important roles in multiple signaling pathways and appear to be deregulated in cancer and Alzheimer&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;#39;s disease. We examine the potential of DSPases as new molecular therapeutic targets for the treatment of human disease.
We describe here detailed protocols to design, optimize and validate in vitro phosphatase assays ... more We describe here detailed protocols to design, optimize and validate in vitro phosphatase assays that we have utilized to conduct high-throughput screens for inhibitors of dual-specificity phosphatases: CDC25B, mitogen-activated protein kinase phosphatase (MKP)-1 and MKP-3. We provide details of the critical steps that are needed to effectively miniaturize the assay into a 384-well, high-throughput format that is both reproducible and cost effective. In vitro phosphatase assays that are optimized according to these protocols should satisfy the assay performance criteria required for a robust high-throughput assay with Z-factors >0.5, and with low intra-plate, inter-plate and day-to-day variability (CV <20%). Assuming the availability of sufficient active phosphatase enzyme and access to appropriate liquid handling automation and detection instruments, a single investigator should be able to develop a 384-well format high-throughput assay in a period of 3-4 weeks.
The unicellular eukaryote Trypanosoma brucei (T. brucei) is the causative agent of human African ... more The unicellular eukaryote Trypanosoma brucei (T. brucei) is the causative agent of human African trypanosomiasis (HAT), a disease that annually infects ~500,000 people in sub-Saharan Africa resulting in 50,000 – 70,000 deaths per year. Without treatment, HAT is fatal. Unfortunately, current treatments are limited in availability, have toxic side effects, are difficult to administer and are not well characterized in terms of their mechanism of action. Thus, the lack of affordable, safe, and effective therapies for those with African trypanosomiasis makes the identification of molecular target-specific chemotypes a priority in our effort to understand the mechanisms involved with parasite growth and viability, as well as for future therapeutic development. The probe identified from this effort, ML205, is a stable, small molecule possessing submicromolar activity (IC50 = 0.98 μM) against a defined T. brucei hexokinase 1 (rTbHK1) target. The probe was not toxic to mammalian cells (IMR-9...
1. Mol Interv. 2010 Apr;10(2):72-5. Anti-leishmanial drug discovery: rising to the challenges of ... more 1. Mol Interv. 2010 Apr;10(2):72-5. Anti-leishmanial drug discovery: rising to the challenges of a highly neglected disease. Sharlow ER, Grögl M, Johnson J, Lazo JS. Drug Discovery Institute, University of Pittsburgh, Pittsburgh, PA 15260, USA. ...
The development of preclinical models amenable to live animal bioactive compound screening is an ... more The development of preclinical models amenable to live animal bioactive compound screening is an attractive approach to discovering effective pharmacological therapies for disorders caused by misfolded and aggregation-prone proteins. In general, however, live animal drug screening is labor and resource intensive, and has been hampered by the lack of robust assay designs and high throughput work-flows. Based on their small
Currently, there is a serious absence of pharmaceutically attractive small molecules that mitigat... more Currently, there is a serious absence of pharmaceutically attractive small molecules that mitigate the lethal effects of an accidental or intentional public exposure to toxic doses of ionizing radiation. Moreover, cellular systems that emulate the radiobiologically relevant cell populations and that are suitable for high-throughput screening have not been established. Therefore, we examined two human pluripotent embryonal carcinoma cell lines for use in an unbiased phenotypic small interfering RNA (siRNA) assay to identify proteins with the potential of being drug targets for the protection of human cell populations against clinically relevant ionizing radiation doses that cause acute radiation syndrome. Of the two human cell lines tested, NCCIT cells had optimal growth characteristics in a 384 well format, exhibited radiation sensitivity (D(0) = 1.3 ± 0.1 Gy and ñ = 2.0 ± 0.6) comparable to the radiosensitivity of stem cell populations associated with human death within 30 days after total-body irradiation. Moreover, they internalized siRNA after 4 Gy irradiation enabling siRNA library screening. Therefore, we used the human NCCIT cell line for the radiation mitigation study with a siRNA library that silenced 5,520 genes known or hypothesized to be potential therapeutic targets. Exploiting computational methodologies, we identified 113 siRNAs with potential radiomitigative properties, which were further refined to 29 siRNAs with phosphoinositide-3-kinase regulatory subunit 1 (p85α) being among the highest confidence candidate gene products. Colony formation assays revealed radiation mitigation when the phosphoinositide-3-kinase inhibitor LY294002 was given after irradiation of 32D cl 3 cells (D(0) = 1.3 ± 0.1 Gy and ñ = 2.3 ± 0.3 for the vehicle control treated cells compared to D(0) = 1.2 ± 0.1 Gy and ñ = 6.0 ± 0.8 for the LY294002 treated cells, P = 0.0004). LY294002 and two other PI3K inhibitors, PI 828 and GSK 1059615, also mitigated radiation-induced apoptosis in NCCIT cells. Treatment of mice with a single intraperitoneal LY294002 dose of 30 mg/kg at 10 min, 4, or 24 h after LD(50/30) whole-body dose of irradiation (9.25 Gy) enhanced survival. This study documents that an unbiased siRNA assay can identify new genes, signaling pathways, and chemotypes as radiation mitigators and implicate the PI3K pathway in the human radiation response.
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Papers by John Lazo