Your search keyword '"MULTIDRUG resistance-associated proteins"' showing total 111 results

1. Structural basis of prostaglandin efflux by MRP4

Author

Pourmal, Sergei, Pourmal, Sergei, Green, Evan, Bajaj, Ruchika, Chemmama, Ilan E, Knudsen, Giselle M, Gupta, Meghna, Sali, Andrej, Cheng, Yifan, Craik, Charles S, Kroetz, Deanna L, Stroud, Robert M, Pourmal, Sergei, Pourmal, Sergei, Green, Evan, Bajaj, Ruchika, Chemmama, Ilan E, Knudsen, Giselle M, Gupta, Meghna, Sali, Andrej, Cheng, Yifan, Craik, Charles S, Kroetz, Deanna L, and Stroud, Robert M

Abstract

Multidrug resistance protein 4 (MRP4) is a broadly expressed ATP-binding cassette transporter that is unique among the MRP subfamily for transporting prostanoids, a group of signaling molecules derived from unsaturated fatty acids. To better understand the basis of the substrate selectivity of MRP4, we used cryogenic-electron microscopy to determine six structures of nanodisc-reconstituted MRP4 at various stages throughout its transport cycle. Substrate-bound structures of MRP4 in complex with PGE1, PGE2 and the sulfonated-sterol DHEA-S reveal a common binding site that accommodates a diverse set of organic anions and suggest an allosteric mechanism for substrate-induced enhancement of MRP4 ATPase activity. Our structure of a catalytically compromised MRP4 mutant bound to ATP-Mg2+ is outward-occluded, a conformation previously unobserved in the MRP subfamily and consistent with an alternating-access transport mechanism. Our study provides insights into the endogenous function of this versatile efflux transporter and establishes a basis for MRP4-targeted drug design.

Published

2024

2. Novel Treatments for PXE: Targeting the Systemic and Local Drivers of Ectopic Calcification

Author

Jacobs, Ida Joely, Li, Qiaoli, Jacobs, Ida Joely, and Li, Qiaoli

Abstract

Pseudoxanthoma elasticum (PXE) is a heritable multisystem ectopic calcification disorder. The gene responsible for PXE, ABCC6, encodes ABCC6, a hepatic efflux transporter regulating extracellular inorganic pyrophosphate (PPi), a potent endogenous calcification inhibitor. Recent studies demonstrated that in addition to the deficiency of plasma PPi, the activated DDR/PARP signaling in calcified tissues provides an additional possible mechanism of ectopic calcification in PXE. This study examined the effects of etidronate (ETD), a stable PPi analog, and its combination with minocycline (Mino), a potent inhibitor of DDR/PARP, on ectopic calcification in an Abcc6-/- mouse model of PXE. Abcc6-/- mice, at 4 weeks of age, before the development of ectopic calcification, were treated with ETD, Mino, or both for 18 weeks. Micro-computed tomography, histopathologic examination, and quantification of the calcium content in Abcc6-/- mice treated with both ETD and Mino revealed further reduced calcification than either treatment alone. The effects were associated with reduced serum alkaline phosphatase activity without changes in plasma PPi concentrations. These results suggest that ETD and Mino combination therapy might provide an effective therapeutic approach for PXE, a currently intractable disease.

Published

2023

3. Still rocking in the structural era: A molecular overview of the small multidrug resistance (SMR) transporter family.

Author

Burata, Olive E, Burata, Olive E, Yeh, Trevor Justin, Macdonald, Christian B, Stockbridge, Randy B, Burata, Olive E, Burata, Olive E, Yeh, Trevor Justin, Macdonald, Christian B, and Stockbridge, Randy B

Abstract

The small multidrug resistance (SMR) family is composed of widespread microbial membrane proteins that fulfill different transport functions. Four functional SMR subtypes have been identified, which variously transport the small, charged metabolite guanidinium, bulky hydrophobic drugs and antiseptics, polyamines, and glycolipids across the membrane bilayer. The transporters possess a minimalist architecture, with ∼100-residue subunits that require assembly into homodimers or heterodimers for transport. In part because of their simple construction, the SMRs are a tractable system for biochemical and biophysical analysis. Studies of SMR transporters over the last 25 years have yielded deep insights for diverse fields, including membrane protein topology and evolution, mechanisms of membrane transport, and bacterial multidrug resistance. Here, we review recent advances in understanding the structures and functions of SMR transporters. New molecular structures of SMRs representing two of the four functional subtypes reveal the conserved structural features that have permitted the emergence of disparate substrate transport functions in the SMR family and illuminate structural similarities with a distantly related membrane transporter family, SLC35/DMT.

Published

2022

4. ENPP1 variants in patients with GACI and PXE expand the clinical and genetic heterogeneity of heritable disorders of ectopic calcification.

Author

Ralph, Douglas, Nitschke, Yvonne, Levine, Michael A, Caffet, Matthew, Wurst, Tamara, Saeidian, Amir Hossein, Youssefian, Leila, Vahidnezhad, Hassan, Terry, Sharon F, Rutsch, Frank, Uitto, Jouni, Li, Qiaoli, Ralph, Douglas, Nitschke, Yvonne, Levine, Michael A, Caffet, Matthew, Wurst, Tamara, Saeidian, Amir Hossein, Youssefian, Leila, Vahidnezhad, Hassan, Terry, Sharon F, Rutsch, Frank, Uitto, Jouni, and Li, Qiaoli

Abstract

Pseudoxanthoma elasticum (PXE) and generalized arterial calcification of infancy (GACI) are clinically distinct genetic entities of ectopic calcification associated with differentially reduced circulating levels of inorganic pyrophosphate (PPi), a potent endogenous inhibitor of calcification. Variants in ENPP1, the gene mutated in GACI, have not been associated with classic PXE. Here we report the clinical, laboratory, and molecular evaluations of ten GACI and two PXE patients from five and two unrelated families registered in GACI Global and PXE International databases, respectively. All patients were found to carry biallelic variants in ENPP1. Among ten ENPP1 variants, one homozygous variant demonstrated uniparental disomy inheritance. Functional assessment of five previously unreported ENPP1 variants suggested pathogenicity. The two PXE patients, currently 57 and 27 years of age, had diagnostic features of PXE and had not manifested the GACI phenotype. The similarly reduced PPi plasma concentrations in the PXE and GACI patients in our study correlate poorly with their disease severity. This study demonstrates that in addition to GACI, ENPP1 variants can cause classic PXE, expanding the clinical and genetic heterogeneity of heritable ectopic calcification disorders. Furthermore, the results challenge the current prevailing concept that plasma PPi is the only factor governing the severity of ectopic calcification.

Published

2022

5. Functional Assessment of Missense Variants in the ABCC6 Gene Implicated in Pseudoxanthoma Elasticum, a Heritable Ectopic Mineralization Disorder.

Author

Kowal, Luke, Huang, Jianhe, Luo, Hongbin, Singh, Jagmohan, Snook, Adam E, Uitto, Jouni, Li, Qiaoli, Kowal, Luke, Huang, Jianhe, Luo, Hongbin, Singh, Jagmohan, Snook, Adam E, Uitto, Jouni, and Li, Qiaoli

Abstract

Pseudoxanthoma elasticum, a heritable multisystem ectopic mineralization disorder, is caused by inactivating mutations in the ABCC6 gene. The encoded protein, ABCC6, a transmembrane transporter, has a specialized efflux function in hepatocytes by contributing to plasma levels of inorganic pyrophosphate, a potent inhibitor of mineralization in soft connective tissues. Reduced plasma inorganic pyrophosphate levels underlie the ectopic mineralization in pseudoxanthoma elasticum. In this study, we characterized the pathogenicity of three human ABCC6 missense variants using an adenovirus-mediated liver-specific ABCC6 transgene expression system in an Abcc6

Published

2022

6. Balanced impacts of fitness and drug pressure on the evolution of PfMDR1 polymorphisms in Plasmodium falciparum.

Author

Duvalsaint, Marvin, Duvalsaint, Marvin, Conrad, Melissa D, Tukwasibwe, Stephen, Tumwebaze, Patrick K, Legac, Jennifer, Cooper, Roland A, Rosenthal, Philip J, Duvalsaint, Marvin, Duvalsaint, Marvin, Conrad, Melissa D, Tukwasibwe, Stephen, Tumwebaze, Patrick K, Legac, Jennifer, Cooper, Roland A, and Rosenthal, Philip J

Abstract

BackgroundAnti-malarial drug resistance may be limited by decreased fitness in resistant parasites. Important contributors to resistance are mutations in the Plasmodium falciparum putative drug transporter PfMDR1.MethodsImpacts on in vitro fitness of two common PfMDR1 polymorphisms, N86Y, which is associated with sensitivity to multiple drugs, and Y184F, which has no clear impact on drug sensitivity, were evaluated to study associations between resistance mediators and parasite fitness, measured as relative growth in competitive culture experiments. NF10 P. falciparum lines engineered to represent all PfMDR1 N86Y and Y184F haplotypes were co-cultured for 40 days, and the genetic make-up of the cultures was characterized every 4 days by pyrosequencing. The impacts of culture with anti-malarials on the growth of different haplotypes were also assessed. Lastly, the engineering of P. falciparum containing another common polymorphism, PfMDR1 D1246Y, was attempted.ResultsCo-culture results were as follows. With wild type (WT) Y184 fixed (N86/Y184 vs. 86Y/Y184), parasites WT and mutant at 86 were at equilibrium. With mutant 184 F fixed (N86/184F vs. 86Y/184F), mutants at 86 overgrew WT. With WT N86 fixed (N86/Y184 vs. N86/184F), WT at 184 overgrew mutants. With mutant 86Y fixed (86Y/Y184 vs. 86Y/184F), WT and mutant at 86 were at equilibrium. Parasites with the double WT were in equilibrium with the double mutant, but 86Y/Y184 overgrew N86/184F. Overall, WT N86/mutant 184F parasites were less fit than parasites with all other haplotypes. Parasites engineered for another mutation, PfMDR1 1246Y, were unstable in culture, with reversion to WT over time. Thus, the N86 WT is stable when accompanied by the Y184 WT, but incurs a fitness cost when accompanied by mutant 184F. Culturing in the presence of chloroquine favored 86Y mutant parasites and in the presence of lumefantrine favored N86 WT parasites; piperaquine had minimal impact.ConclusionsThese results are consistent w

Published

2021

7. Pharmacokinetic and Pharmacodynamic Factors Contribute to Synergism between Let-7c-5p and 5-Fluorouracil in Inhibiting Hepatocellular Carcinoma Cell Viability.

Author

Jilek, Joseph L, Jilek, Joseph L, Tu, Mei-Juan, Zhang, Chao, Yu, Ai-Ming, Jilek, Joseph L, Jilek, Joseph L, Tu, Mei-Juan, Zhang, Chao, and Yu, Ai-Ming

Abstract

Pharmacological interventions for hepatocellular carcinoma (HCC) are hindered by complex factors, and rational combination therapy may be developed to improve therapeutic outcomes. Very recently, we have identified a bioengineered microRNA let-7c-5p (or let-7c) agent as an effective inhibitor against HCC in vitro and in vivo. In this study, we sought to identify small-molecule drugs that may synergistically act with let-7c against HCC. Interestingly, we found that let-7c exhibited a strong synergism with 5-fluorouracil (5-FU) in the inhibition of HCC cell viability as manifested by average combination indices of 0.3 and 0.5 in Hep3B and Huh7 cells, respectively. By contrast, coadministration of let-7c with doxorubicin or sorafenib inhibited HCC cell viability with, rather surprisingly, no or minimal synergy. Further studies showed that protein levels of multidrug resistance-associated protein (MRP) ATP-binding cassette subfamily C member 5 (MRP5/ABCC5), a 5-FU efflux transporter, were reduced around 50% by let-7c in HCC cells. This led to a greater degree of intracellular accumulation of 5-FU in Huh7 cells as well as the second messenger cyclic adenosine monophosphate, an endogenous substrate of MRP5. Since 5-FU is an irreversible inhibitor of thymidylate synthetase (TS), we investigated the interactions of let-7c with 5-FU at pharmacodynamic level. Interestingly, our data revealed that let-7c significantly reduced TS protein levels in Huh7 cells, which was associated with the suppression of upstream transcriptional factors as well as other regulatory factors. Collectively, these results indicate that let-7c interacts with 5-FU at both pharmacokinetic and pharmacodynamic levels, and these findings shall offer insight into molecular mechanisms of synergistic drug combinations. SIGNIFICANCE STATEMENT: Combination therapy is a common strategy that generally involves pharmacodynamic interactions. After identifying a strong synergism between let-7c-5p and 5-fluorouracil

Published

2020

8. Associations between Aminoquinoline Resistance Genotypes and Clinical Presentations of Plasmodium falciparum Infection in Uganda.

Author

Cuu, Gloria, Cuu, Gloria, Asua, Victor, Tukwasibwe, Stephen, Nsobya, Sam L, Nanteza, Ann, Kimuda, Magambo Phillip, Mpimbaza, Arthur, Rosenthal, Philip J, Cuu, Gloria, Cuu, Gloria, Asua, Victor, Tukwasibwe, Stephen, Nsobya, Sam L, Nanteza, Ann, Kimuda, Magambo Phillip, Mpimbaza, Arthur, and Rosenthal, Philip J

Abstract

Mutations that mediate resistance of Plasmodium falciparum to aminoquinoline antimalarials are selected by prior drug use and may alter parasite fitness, but associations with clinical presentations are uncertain. We evaluated genotypes in samples from a case-control study of determinants of severe malaria in Ugandan children 4 months to 10 years of age. We studied 274 cases with severe malaria matched by age and geography to 275 uncomplicated malaria controls and 179 asymptomatic parasitemic controls. The overall prevalence of mutations of interest (considering mixed results as mutant) was 67.0% for PfCRT K76T, 8.5% for PfMDR1 N86Y, 71.5% for PfMDR1 Y184F, and 14.7% for PfMDR1 D1246Y. Compared to asymptomatic controls, the odds of mutant PfCRT 76T were lower for uncomplicated (odds ratio, 0.42 [95% confidence interval, 0.24 to 0.72]; P < 0.001) or severe (0.56 [0.32 to 0.97]; P = 0.031) malaria; the odds of mutant PfMDR1 86Y were lower for uncomplicated (0.33 [0.16 to 0.65]; P < 0.001) or severe (0.21 [0.09 to 0.45]; P < 0.001) malaria; and the odds of mutant PfMDR1 1246Y were higher for uncomplicated (1.83 [0.90 to 3.98]; P = 0.076) or severe (2.06 [1.01 to 4.55]; P = 0.033) malaria. The odds of mutant PfMDR1 184F were lower in severe than asymptomatic (0.59 [0.37 to 0.92]; P = 0.016) or uncomplicated (0.61 [0.41 to 0.90]; P = 0.009) malaria. Overall, the PfCRT 76T and PfMDR1 86Y mutations were associated with decreased risk of symptomatic malaria, PfMDR1 1246Y was associated with increased risk of symptomatic malaria, and PfMDR1 184F was associated with decreased risk of severe malaria. These results offer insights into parasite genotypes in children with different presentations, although the basis for the identified associations is likely complex.

Published

2020

9. Changing Molecular Markers of Antimalarial Drug Sensitivity across Uganda.

Author

Asua, Victor, Asua, Victor, Vinden, Joanna, Conrad, Melissa D, Legac, Jennifer, Kigozi, Simon P, Kamya, Moses R, Dorsey, Grant, Nsobya, Samuel L, Rosenthal, Philip J, Asua, Victor, Asua, Victor, Vinden, Joanna, Conrad, Melissa D, Legac, Jennifer, Kigozi, Simon P, Kamya, Moses R, Dorsey, Grant, Nsobya, Samuel L, and Rosenthal, Philip J

Abstract

The potential spread of antimalarial drug resistance to Africa, in particular for artemisinins and key partner drugs, is a major concern. We surveyed Plasmodium falciparum genetic markers associated with drug sensitivity on 3 occasions at ∼6-month intervals in 2016 and 2017 at 10 sites representing a range of epidemiological settings in Uganda. For putative drug transporters, we found continued evolution toward wild-type sequences associated with increased sensitivity to chloroquine. For pfcrt K76T, by 2017 the prevalence of the wild type was >60% at all sites and >90% at 6 sites. For the pfmdr1 N86Y and D1246Y alleles, wild type prevalence ranged from 80 to 100%. We found low prevalence of K13 propeller domain mutations, which are associated with artemisinin resistance in Asia, but one mutation previously identified in northern Uganda, 675V, was seen in 2.0% of samples, including 5.5% of those from the 3 northernmost sites. Amplification of the pfmdr1 and plasmepsin2 genes, associated elsewhere with decreased sensitivity to lumefantrine and piperaquine, respectively, was seen in <1% of samples. For the antifolate targets pfdhfr and pfdhps, 5 mutations previously associated with resistance were very common, and the pfdhfr 164L and pfdhps 581G mutations associated with higher-level resistance were seen at multiple sites, although prevalence did not clearly increase over time. Overall, changes were consistent with the selective pressure of the national treatment regimen, artemether-lumefantrine, with increased sensitivity to chloroquine, and with poor efficacy of antifolates. Strong evidence for resistance to artemisinins was not seen. Continued surveillance of markers that predict antimalarial drug sensitivity is warranted.

Published

2019

10. Mesenchymal Stem Cell-Derived Extracellular Vesicles Decrease Lung Injury in Mice.

Author

Hao, Qi, Hao, Qi, Gudapati, Varun, Monsel, Antoine, Park, Jeong H, Hu, Shuling, Kato, Hideya, Lee, Jae H, Zhou, Li, He, Hongli, Lee, Jae W, Hao, Qi, Hao, Qi, Gudapati, Varun, Monsel, Antoine, Park, Jeong H, Hu, Shuling, Kato, Hideya, Lee, Jae H, Zhou, Li, He, Hongli, and Lee, Jae W

Abstract

Human mesenchymal stem cell (MSC) extracellular vesicles (EV) can reduce the severity of bacterial pneumonia, but little is known about the mechanisms underlying their antimicrobial activity. In the current study, we found that bacterial clearance induced by MSC EV in Escherichia coli pneumonia in C57BL/6 mice was associated with high levels of leukotriene (LT) B4 in the injured alveolus. More importantly, the antimicrobial effect of MSC EV was abrogated by cotreatment with a LTB4 BLT1 antagonist. To determine the role of MSC EV on LT metabolism, we measured the effect of MSC EV on a known ATP-binding cassette transporter, multidrug resistance-associated protein 1 (MRP1), and found that MSC EV suppressed MRP1 mRNA, protein, and pump function in LPS-stimulated Raw264.7 cells in vitro. The synthesis of LTB4 and LTC4 from LTA4 are competitive, and MRP1 is the efflux pump for LTC4 Inhibition of MRP1 will increase LTB4 production. In addition, administration of a nonspecific MRP1 inhibitor (MK-571) reduced LTC4 and subsequently increased LTB4 levels in C57BL/6 mice with acute lung injury, increasing overall antimicrobial activity. We previously found that the biological effects of MSC EV were through the transfer of its content, such as mRNA, microRNA, and proteins, to target cells. In the current study, miR-145 knockdown abolished the effect of MSC EV on the inhibition of MRP1 in vitro and the antimicrobial effect in vivo. In summary, MSC EV suppressed MRP1 activity through transfer of miR-145, thereby resulting in enhanced LTB4 production and antimicrobial activity through LTB4/BLT1 signaling.

Published

2019

11. Elevation of sensitivity to anticancer agents of human lung adenocarcinoma A549 cells by knockdown of claudin-2 expression in monolayer and spheroid culture models.

Published

2018

12. Structural Basis for Cholesterol Transport-like Activity of the Hedgehog Receptor Patched.

Author

Zhang, Yunxiao, Zhang, Yunxiao, Bulkley, David P, Xin, Yao, Roberts, Kelsey J, Asarnow, Daniel E, Sharma, Ashutosh, Myers, Benjamin R, Cho, Wonhwa, Cheng, Yifan, Beachy, Philip A, Zhang, Yunxiao, Zhang, Yunxiao, Bulkley, David P, Xin, Yao, Roberts, Kelsey J, Asarnow, Daniel E, Sharma, Ashutosh, Myers, Benjamin R, Cho, Wonhwa, Cheng, Yifan, and Beachy, Philip A

Abstract

Hedgehog protein signals mediate tissue patterning and maintenance by binding to and inactivating their common receptor Patched, a 12-transmembrane protein that otherwise would suppress the activity of the 7-transmembrane protein Smoothened. Loss of Patched function, the most common cause of basal cell carcinoma, permits unregulated activation of Smoothened and of the Hedgehog pathway. A cryo-EM structure of the Patched protein reveals striking transmembrane domain similarities to prokaryotic RND transporters. A central hydrophobic conduit with cholesterol-like contents courses through the extracellular domain and resembles that used by other RND proteins to transport substrates, suggesting Patched activity in cholesterol transport. Cholesterol activity in the inner leaflet of the plasma membrane is reduced by PTCH1 expression but rapidly restored by Hedgehog stimulation, suggesting that PTCH1 regulates Smoothened by controlling cholesterol availability.

Published

2018

13. Changing Antimalarial Drug Resistance Patterns Identified by Surveillance at Three Sites in Uganda.

Author

Tumwebaze, Patrick, Tumwebaze, Patrick, Tukwasibwe, Stephen, Taylor, Aimee, Conrad, Melissa, Ruhamyankaka, Emmanuel, Asua, Victor, Walakira, Andrew, Nankabirwa, Joaniter, Yeka, Adoke, Staedke, Sarah G, Greenhouse, Bryan, Nsobya, Samuel L, Kamya, Moses R, Dorsey, Grant, Rosenthal, Philip J, Tumwebaze, Patrick, Tumwebaze, Patrick, Tukwasibwe, Stephen, Taylor, Aimee, Conrad, Melissa, Ruhamyankaka, Emmanuel, Asua, Victor, Walakira, Andrew, Nankabirwa, Joaniter, Yeka, Adoke, Staedke, Sarah G, Greenhouse, Bryan, Nsobya, Samuel L, Kamya, Moses R, Dorsey, Grant, and Rosenthal, Philip J

Abstract

We assessed Plasmodium falciparum drug resistance markers in parasites collected in 2012, 2013, and 2015 at 3 sites in Uganda. The prevalence and frequency of parasites with mutations in putative transporters previously associated with resistance to aminoquinolines, but increased sensitivity to lumefantrine (pfcrt 76T; pfmdr1 86Y and 1246Y), decreased markedly at all sites. Antifolate resistance mutations were common, with apparent emergence of mutations (pfdhfr 164L; pfdhps 581G) associated with high-level resistance. K13 mutations linked to artemisinin resistance were uncommon and did not increase over time. Changing malaria treatment practices have been accompanied by profound changes in markers of resistance.

Published

2017

14. Altered Plasmodium falciparum Sensitivity to the Antiretroviral Protease Inhibitor Lopinavir Associated with Polymorphisms in pfmdr1.

Author

Sonoiki, Ebere, Sonoiki, Ebere, Nsanzabana, Christian, Legac, Jennifer, Sindhe, Kirthana MV, DeRisi, Joseph, Rosenthal, Philip J, Sonoiki, Ebere, Sonoiki, Ebere, Nsanzabana, Christian, Legac, Jennifer, Sindhe, Kirthana MV, DeRisi, Joseph, and Rosenthal, Philip J

Abstract

The HIV protease inhibitor lopinavir inhibits Plasmodium falciparum aspartic proteases (plasmepsins) and parasite development, and children receiving lopinavir-ritonavir experienced fewer episodes of malaria than those receiving other antiretroviral regimens. Resistance to lopinavir was selected in vitro over ∼9 months, with ∼4-fold decreased sensitivity. Whole-genome sequencing of resistant parasites showed a mutation and increased copy number in pfmdr1 and a mutation in a protein of unknown function, but no polymorphisms in plasmepsin genes.

Published

2017

15. Molecular basis for inhibition of AcrB multidrug efflux pump by novel and powerful pyranopyridine derivatives.

Author

Sjuts, Hanno, Sjuts, Hanno, Vargiu, Attilio V, Kwasny, Steven M, Nguyen, Son T, Kim, Hong-Suk, Ding, Xiaoyuan, Ornik, Alina R, Ruggerone, Paolo, Bowlin, Terry L, Nikaido, Hiroshi, Pos, Klaas M, Opperman, Timothy J, Sjuts, Hanno, Sjuts, Hanno, Vargiu, Attilio V, Kwasny, Steven M, Nguyen, Son T, Kim, Hong-Suk, Ding, Xiaoyuan, Ornik, Alina R, Ruggerone, Paolo, Bowlin, Terry L, Nikaido, Hiroshi, Pos, Klaas M, and Opperman, Timothy J

Abstract

The Escherichia coli AcrAB-TolC efflux pump is the archetype of the resistance nodulation cell division (RND) exporters from Gram-negative bacteria. Overexpression of RND-type efflux pumps is a major factor in multidrug resistance (MDR), which makes these pumps important antibacterial drug discovery targets. We have recently developed novel pyranopyridine-based inhibitors of AcrB, which are orders of magnitude more powerful than the previously known inhibitors. However, further development of such inhibitors has been hindered by the lack of structural information for rational drug design. Although only the soluble, periplasmic part of AcrB binds and exports the ligands, the presence of the membrane-embedded domain in AcrB and its polyspecific binding behavior have made cocrystallization with drugs challenging. To overcome this obstacle, we have engineered and produced a soluble version of AcrB [AcrB periplasmic domain (AcrBper)], which is highly congruent in structure with the periplasmic part of the full-length protein, and is capable of binding substrates and potent inhibitors. Here, we describe the molecular basis for pyranopyridine-based inhibition of AcrB using a combination of cellular, X-ray crystallographic, and molecular dynamics (MD) simulations studies. The pyranopyridines bind within a phenylalanine-rich cage that branches from the deep binding pocket of AcrB, where they form extensive hydrophobic interactions. Moreover, the increasing potency of improved inhibitors correlates with the formation of a delicate protein- and water-mediated hydrogen bond network. These detailed insights provide a molecular platform for the development of novel combinational therapies using efflux pump inhibitors for combating multidrug resistant Gram-negative pathogens.

Published

2016

16. Multidrug resistance-associated protein 4 is a determinant of arsenite resistance.

Author

Yuan, Bo, Yuan, Bo, Yoshino, Yuta, Fukushima, Hisayo, Markova, Svetlana, Takagi, Norio, Toyoda, Hiroo, Kroetz, Deanna L, Yuan, Bo, Yuan, Bo, Yoshino, Yuta, Fukushima, Hisayo, Markova, Svetlana, Takagi, Norio, Toyoda, Hiroo, and Kroetz, Deanna L

Abstract

Although arsenic trioxide (arsenite, As(III)) has shown a remarkable efficacy in the treatment of acute promyelocytic leukemia patients, multidrug resistance is still a major concern for its clinical use. Multidrug resistance-associated protein 4 (MRP4), which belongs to the ATP-binding cassette (ABC) superfamily of transporters, is localized to the basolateral membrane of hepatocytes and the apical membrane of renal proximal tubule cells. Due to its characteristic localization, MRP4 is proposed as a candidate in the elimination of arsenic and may contribute to resistance to As(III). To test this hypothesis, stable HEK293 cells overexpressing MRP4 or MRP2 were used to establish the role of these two transporters in As(III) resistance. The IC50 values of As(III) in MRP4 cells were approximately 6-fold higher than those in MRP2 cells, supporting an important role for MRP4 in resistance to As(III). The capacity of MRP4 to confer resistance to As(III) was further confirmed by a dramatic decrease in the IC50 values with the addition of MK571, an MRP4 inhibitor, and cyclosporine A, a well-known broad-spectrum inhibitor of ABC transporters. Surprisingly, the sensitivity of the MRP2 cells to As(III) was similar to that of the parent cells, although insufficient formation of glutathione and/or Se conjugated arsenic compounds in the MRP2 cells might limit transport. Given that MRP4 is a major contributor to arsenic resistance in vitro, further investigation into the correlation between MRP4 expression and treatment outcome of leukemia patients treated with arsenic-based regimens is warranted.

Published

2016

17. Multidrug resistance-associated protein 4 is a determinant of arsenite resistance.

Author

Yuan, Bo, Yuan, Bo, Yoshino, Yuta, Fukushima, Hisayo, Markova, Svetlana, Takagi, Norio, Toyoda, Hiroo, Kroetz, Deanna L, Yuan, Bo, Yuan, Bo, Yoshino, Yuta, Fukushima, Hisayo, Markova, Svetlana, Takagi, Norio, Toyoda, Hiroo, and Kroetz, Deanna L

Abstract

Although arsenic trioxide (arsenite, As(III)) has shown a remarkable efficacy in the treatment of acute promyelocytic leukemia patients, multidrug resistance is still a major concern for its clinical use. Multidrug resistance-associated protein 4 (MRP4), which belongs to the ATP-binding cassette (ABC) superfamily of transporters, is localized to the basolateral membrane of hepatocytes and the apical membrane of renal proximal tubule cells. Due to its characteristic localization, MRP4 is proposed as a candidate in the elimination of arsenic and may contribute to resistance to As(III). To test this hypothesis, stable HEK293 cells overexpressing MRP4 or MRP2 were used to establish the role of these two transporters in As(III) resistance. The IC50 values of As(III) in MRP4 cells were approximately 6-fold higher than those in MRP2 cells, supporting an important role for MRP4 in resistance to As(III). The capacity of MRP4 to confer resistance to As(III) was further confirmed by a dramatic decrease in the IC50 values with the addition of MK571, an MRP4 inhibitor, and cyclosporine A, a well-known broad-spectrum inhibitor of ABC transporters. Surprisingly, the sensitivity of the MRP2 cells to As(III) was similar to that of the parent cells, although insufficient formation of glutathione and/or Se conjugated arsenic compounds in the MRP2 cells might limit transport. Given that MRP4 is a major contributor to arsenic resistance in vitro, further investigation into the correlation between MRP4 expression and treatment outcome of leukemia patients treated with arsenic-based regimens is warranted.

Published

2016

18. Molecular basis for inhibition of AcrB multidrug efflux pump by novel and powerful pyranopyridine derivatives.

Author

Sjuts, Hanno, Sjuts, Hanno, Vargiu, Attilio V, Kwasny, Steven M, Nguyen, Son T, Kim, Hong-Suk, Ding, Xiaoyuan, Ornik, Alina R, Ruggerone, Paolo, Bowlin, Terry L, Nikaido, Hiroshi, Pos, Klaas M, Opperman, Timothy J, Sjuts, Hanno, Sjuts, Hanno, Vargiu, Attilio V, Kwasny, Steven M, Nguyen, Son T, Kim, Hong-Suk, Ding, Xiaoyuan, Ornik, Alina R, Ruggerone, Paolo, Bowlin, Terry L, Nikaido, Hiroshi, Pos, Klaas M, and Opperman, Timothy J

Abstract

The Escherichia coli AcrAB-TolC efflux pump is the archetype of the resistance nodulation cell division (RND) exporters from Gram-negative bacteria. Overexpression of RND-type efflux pumps is a major factor in multidrug resistance (MDR), which makes these pumps important antibacterial drug discovery targets. We have recently developed novel pyranopyridine-based inhibitors of AcrB, which are orders of magnitude more powerful than the previously known inhibitors. However, further development of such inhibitors has been hindered by the lack of structural information for rational drug design. Although only the soluble, periplasmic part of AcrB binds and exports the ligands, the presence of the membrane-embedded domain in AcrB and its polyspecific binding behavior have made cocrystallization with drugs challenging. To overcome this obstacle, we have engineered and produced a soluble version of AcrB [AcrB periplasmic domain (AcrBper)], which is highly congruent in structure with the periplasmic part of the full-length protein, and is capable of binding substrates and potent inhibitors. Here, we describe the molecular basis for pyranopyridine-based inhibition of AcrB using a combination of cellular, X-ray crystallographic, and molecular dynamics (MD) simulations studies. The pyranopyridines bind within a phenylalanine-rich cage that branches from the deep binding pocket of AcrB, where they form extensive hydrophobic interactions. Moreover, the increasing potency of improved inhibitors correlates with the formation of a delicate protein- and water-mediated hydrogen bond network. These detailed insights provide a molecular platform for the development of novel combinational therapies using efflux pump inhibitors for combating multidrug resistant Gram-negative pathogens.

Published

2016

19. HIV-1 Alters Intestinal Expression of Drug Transporters and Metabolic Enzymes: Implications for Antiretroviral Drug Disposition.

Author

Kis, Olena, Kis, Olena, Sankaran-Walters, Sumathi, Hoque, M Tozammel, Walmsley, Sharon L, Dandekar, Satya, Bendayan, Reina, Kis, Olena, Kis, Olena, Sankaran-Walters, Sumathi, Hoque, M Tozammel, Walmsley, Sharon L, Dandekar, Satya, and Bendayan, Reina

Abstract

This study investigated the effects of HIV-1 infection and antiretroviral therapy (ART) on the expression of intestinal drug efflux transporters, i.e., P-glycoprotein (Pgp), multidrug resistance-associated proteins (MRPs), and breast cancer resistance protein (BCRP), and metabolic enzymes, such as cytochrome P450s (CYPs), in the human upper intestinal tract. Intestinal biopsy specimens were obtained from HIV-negative healthy volunteers, ART-naive HIV-positive (HIV(+)) subjects, and HIV(+) subjects receiving ART (10 in each group). Intestinal tissue expression of drug transporters and metabolic enzymes was examined by microarray, real-time quantitative reverse transcription-PCR (qPCR), and immunohistochemistry analyses. Microarray analysis demonstrated significantly lower expression of CYP3A4 and ABCC2/MRP2 in the HIV(+) ART-naive group than in uninfected subjects. qPCR analysis confirmed significantly lower expression of ABCC2/MRP2 in ART-naive subjects than in the control group, while CYP3A4 and ABCG2/BCRP showed a trend toward decreased expression. Protein expression of MRP2 and BCRP was also significantly lower in the HIV(+) naive group than in the control group and was partially restored to baseline levels in HIV(+) subjects receiving ART. In contrast, gene and protein expression of ABCB1/Pgp was significantly increased in HIV(+) subjects on ART relative to HIV(+) ART-naive subjects. These data demonstrate that the expression of drug-metabolizing enzymes and efflux transporters is significantly altered in therapy-naive HIV(+) subjects and in those receiving ART. Since CYP3A4, Pgp, MRPs, and BCRP metabolize or transport many antiretroviral drugs, their altered expression with HIV infection may negatively impact drug pharmacokinetics in HIV(+) subjects. This has clinical implications when using data from healthy volunteers to guide ART.

Published

2016

20. N-lactoyl-amino acids are ubiquitous metabolites that originate from CNDP2-mediated reverse proteolysis of lactate and amino acids

Author

Jansen, Robert S, Addie, Ruben, Merkx, Remco, Fish, Alexander, Mahakena, Sunny, Bleijerveld, Onno B, Altelaar, Maarten, IJlst, Lodewijk, Wanders, Ronald J, Borst, P, van de Wetering, Koen, Jansen, Robert S, Addie, Ruben, Merkx, Remco, Fish, Alexander, Mahakena, Sunny, Bleijerveld, Onno B, Altelaar, Maarten, IJlst, Lodewijk, Wanders, Ronald J, Borst, P, and van de Wetering, Koen

Abstract

Despite technological advances in metabolomics, large parts of the human metabolome are still unexplored. In an untargeted metabolomics screen aiming to identify substrates of the orphan transporter ATP-binding cassette subfamily C member 5 (ABCC5), we identified a class of mammalian metabolites, N-lactoyl-amino acids. Using parallel protein fractionation in conjunction with shotgun proteomics on fractions containing N-lactoyl-Phe-forming activity, we unexpectedly found that a protease, cytosolic nonspecific dipeptidase 2 (CNDP2), catalyzes their formation. N-lactoyl-amino acids are ubiquitous pseudodipeptides of lactic acid and amino acids that are rapidly formed by reverse proteolysis, a process previously considered to be negligible in vivo. The plasma levels of these metabolites strongly correlate with plasma levels of lactate and amino acid, as shown by increased levels after physical exercise and in patients with phenylketonuria who suffer from elevated Phe levels. Our approach to identify unknown metabolites and their biosynthesis has general applicability in the further exploration of the human metabolome.

Published

2015

21. Chimeric MicroRNA-1291 Biosynthesized Efficiently in Escherichia coli Is Effective to Reduce Target Gene Expression in Human Carcinoma Cells and Improve Chemosensitivity.

Author

Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick A, LaSalle, Janine M, Zeng, Su, Huang, Min, Yu, Ai-Ming, Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick A, LaSalle, Janine M, Zeng, Su, Huang, Min, and Yu, Ai-Ming

Abstract

In contrast to the growing interests in studying noncoding RNAs (ncRNAs) such as microRNA (miRNA or miR) pharmacoepigenetics, there is a lack of efficient means to cost effectively produce large quantities of natural miRNA agents. Our recent efforts led to a successful production of chimeric pre-miR-27b in bacteria using a transfer RNA (tRNA)-based recombinant RNA technology, but at very low expression levels. Herein, we present a high-yield expression of chimeric pre-miR-1291 in common Escherichia coli strains using the same tRNA scaffold. The tRNA fusion pre-miR-1291 (tRNA/mir-1291) was then purified to high homogeneity using affinity chromatography, whose primary sequence and post-transcriptional modifications were directly characterized by mass spectrometric analyses. Chimeric tRNA/mir-1291 was readily processed to mature miR-1291 in human carcinoma MCF-7 and PANC-1 cells. Consequently, recombinant tRNA/mir-1291 reduced the protein levels of miR-1291 target genes, including ABCC1, FOXA2, and MeCP2, as compared with cells transfected with the same doses of control methionyl-tRNA scaffold with a sephadex aptamer (tRNA/MSA). In addition, tRNA-carried pre-miR-1291 suppressed the growth of MCF-7 and PANC-1 cells in a dose-dependent manner, and significantly enhanced the sensitivity of ABCC1-overexpressing PANC-1 cells to doxorubicin. These results indicate that recombinant miR-1291 agent is effective in the modulation of target gene expression and chemosensitivity, which may provide insights into high-yield bioengineering of new ncRNA agents for pharmacoepigenetics research.

Published

2015

22. Improving olefin tolerance and production in E. coli using native and evolved AcrB.

Author

Mingardon, Florence, Mingardon, Florence, Clement, Camille, Hirano, Kathleen, Nhan, Melissa, Luning, Eric G, Chanal, Angelique, Mukhopadhyay, Aindrila, Mingardon, Florence, Mingardon, Florence, Clement, Camille, Hirano, Kathleen, Nhan, Melissa, Luning, Eric G, Chanal, Angelique, and Mukhopadhyay, Aindrila

Abstract

Microorganisms can be engineered for the production of chemicals utilized in the polymer industry. However many such target compounds inhibit microbial growth and might correspondingly limit production levels. Here, we focus on compounds that are precursors to bioplastics, specifically styrene and representative alpha-olefins; 1-hexene, 1-octene, and 1-nonene. We evaluated the role of the Escherichia coli efflux pump, AcrAB-TolC, in enhancing tolerance towards these olefin compounds. AcrAB-TolC is involved in the tolerance towards all four compounds in E. coli. Both styrene and 1-hexene are highly toxic to E. coli. Styrene is a model plastics precursor with an established route for production in E. coli (McKenna and Nielsen, 2011). Though our data indicates that AcrAB-TolC is important for its optimal production, we observed a strong negative selection against the production of styrene in E. coli. Thus we used 1-hexene as a model compound to implement a directed evolution strategy to further improve the tolerance phenotype towards this alpha-olefin. We focused on optimization of AcrB, the inner membrane domain known to be responsible for substrate binding, and found several mutations (A279T, Q584R, F617L, L822P, F927S, and F1033Y) that resulted in improved tolerance. Several of these mutations could also be combined in a synergistic manner. Our study shows efflux pumps to be an important mechanism in host engineering for olefins, and one that can be further improved using strategies such as directed evolution, to increase tolerance and potentially production.

Published

2015

23. Apoptosome activation, an important molecular instigator in 6-mercaptopurine induced Leydig cell death.

Author

Morgan, Jessica A, Morgan, Jessica A, Lynch, John, Panetta, John C, Wang, Yao, Frase, Sharon, Bao, Ju, Zheng, Jie, Opferman, Joseph T, Janke, Laura, Green, Daniel M, Chemaitilly, Wassim, Schuetz, John D, Morgan, Jessica A, Morgan, Jessica A, Lynch, John, Panetta, John C, Wang, Yao, Frase, Sharon, Bao, Ju, Zheng, Jie, Opferman, Joseph T, Janke, Laura, Green, Daniel M, Chemaitilly, Wassim, and Schuetz, John D

Abstract

Leydig cells are crucial to the production of testosterone in males. It is unknown if the cancer chemotherapeutic drug, 6-mercaptopurine (6 MP), produces Leydig cell failure among adult survivors of childhood acute lymphoblastic leukemia. Moreover, it is not known whether Leydig cell failure is due to either a loss of cells or an impairment in their function. Herein, we show, in a subset of childhood cancer survivors, that Leydig cell failure is related to the dose of 6 MP. This was extended, in a murine model, to demonstrate that 6 MP exposure induced caspase 3 activation, and the loss of Leydig cells was independent of Bak and Bax activation. The death of these non-proliferating cells was triggered by 6 MP metabolism, requiring formation of both cytosolic reactive oxygen species and thiopurine nucleotide triphosphates. The thiopurine nucleotide triphosphates (with physiological amounts of dATP) uniquely activated the apoptosome. An ABC transporter (Abcc4/Mrp4) reduced the amount of thiopurines, thereby providing protection for Leydig cells. The studies reported here demonstrate that the apoptosome is uniquely activated by thiopurine nucleotides and suggest that 6 MP induced Leydig cell death is likely a cause of Leydig cell failure in some survivors of childhood cancer.

Published

2015

24. Reversal of the Drug Binding Pocket Defects of the AcrB Multidrug Efflux Pump Protein of Escherichia coli.

Author

Soparkar, Ketaki, Soparkar, Ketaki, Kinana, Alfred D, Weeks, Jon W, Morrison, Keith D, Nikaido, Hiroshi, Misra, Rajeev, Soparkar, Ketaki, Soparkar, Ketaki, Kinana, Alfred D, Weeks, Jon W, Morrison, Keith D, Nikaido, Hiroshi, and Misra, Rajeev

Abstract

UnlabelledThe AcrB protein of Escherichia coli, together with TolC and AcrA, forms a contiguous envelope conduit for the capture and extrusion of diverse antibiotics and cellular metabolites. In this study, we sought to expand our knowledge of AcrB by conducting genetic and functional analyses. We began with an AcrB mutant bearing an F610A substitution in the drug binding pocket and obtained second-site substitutions that overcame the antibiotic hypersusceptibility phenotype conferred by the F610A mutation. Five of the seven unique single amino acid substitutions--Y49S, V127A, V127G, D153E, and G288C--mapped in the periplasmic porter domain of AcrB, with the D153E and G288C mutations mapping near and at the distal drug binding pocket, respectively. The other two substitutions--F453C and L486W--were mapped to transmembrane (TM) helices 5 and 6, respectively. The nitrocefin efflux kinetics data suggested that all periplasmic suppressors significantly restored nitrocefin binding affinity impaired by the F610A mutation. Surprisingly, despite increasing MICs of tested antibiotics and the efflux of N-phenyl-1-naphthylamine, the TM suppressors did not improve the nitrocefin efflux kinetics. These data suggest that the periplasmic substitutions act by influencing drug binding affinities for the distal binding pocket, whereas the TM substitutions may indirectly affect the conformational dynamics of the drug binding domain.ImportanceThe AcrB protein and its homologues confer multidrug resistance in many important human bacterial pathogens. A greater understanding of how these efflux pump proteins function will lead to the development of effective inhibitors against them. The research presented in this paper investigates drug binding pocket mutants of AcrB through the isolation and characterization of intragenic suppressor mutations that overcome the drug susceptibility phenotype of mutations affecting the drug binding pocket. The data reveal a remarkable structure-function pl

Published

2015

25. Improving olefin tolerance and production in E. coli using native and evolved AcrB.

Author

Mingardon, Florence, Mingardon, Florence, Clement, Camille, Hirano, Kathleen, Nhan, Melissa, Luning, Eric G, Chanal, Angelique, Mukhopadhyay, Aindrila, Mingardon, Florence, Mingardon, Florence, Clement, Camille, Hirano, Kathleen, Nhan, Melissa, Luning, Eric G, Chanal, Angelique, and Mukhopadhyay, Aindrila

Abstract

Microorganisms can be engineered for the production of chemicals utilized in the polymer industry. However many such target compounds inhibit microbial growth and might correspondingly limit production levels. Here, we focus on compounds that are precursors to bioplastics, specifically styrene and representative alpha-olefins; 1-hexene, 1-octene, and 1-nonene. We evaluated the role of the Escherichia coli efflux pump, AcrAB-TolC, in enhancing tolerance towards these olefin compounds. AcrAB-TolC is involved in the tolerance towards all four compounds in E. coli. Both styrene and 1-hexene are highly toxic to E. coli. Styrene is a model plastics precursor with an established route for production in E. coli (McKenna and Nielsen, 2011). Though our data indicates that AcrAB-TolC is important for its optimal production, we observed a strong negative selection against the production of styrene in E. coli. Thus we used 1-hexene as a model compound to implement a directed evolution strategy to further improve the tolerance phenotype towards this alpha-olefin. We focused on optimization of AcrB, the inner membrane domain known to be responsible for substrate binding, and found several mutations (A279T, Q584R, F617L, L822P, F927S, and F1033Y) that resulted in improved tolerance. Several of these mutations could also be combined in a synergistic manner. Our study shows efflux pumps to be an important mechanism in host engineering for olefins, and one that can be further improved using strategies such as directed evolution, to increase tolerance and potentially production.

Published

2015

26. Reversal of the Drug Binding Pocket Defects of the AcrB Multidrug Efflux Pump Protein of Escherichia coli.

Author

Soparkar, Ketaki, Christie, PJ1, Soparkar, Ketaki, Kinana, Alfred D, Weeks, Jon W, Morrison, Keith D, Nikaido, Hiroshi, Misra, Rajeev, Soparkar, Ketaki, Christie, PJ1, Soparkar, Ketaki, Kinana, Alfred D, Weeks, Jon W, Morrison, Keith D, Nikaido, Hiroshi, and Misra, Rajeev

Abstract

UnlabelledThe AcrB protein of Escherichia coli, together with TolC and AcrA, forms a contiguous envelope conduit for the capture and extrusion of diverse antibiotics and cellular metabolites. In this study, we sought to expand our knowledge of AcrB by conducting genetic and functional analyses. We began with an AcrB mutant bearing an F610A substitution in the drug binding pocket and obtained second-site substitutions that overcame the antibiotic hypersusceptibility phenotype conferred by the F610A mutation. Five of the seven unique single amino acid substitutions--Y49S, V127A, V127G, D153E, and G288C--mapped in the periplasmic porter domain of AcrB, with the D153E and G288C mutations mapping near and at the distal drug binding pocket, respectively. The other two substitutions--F453C and L486W--were mapped to transmembrane (TM) helices 5 and 6, respectively. The nitrocefin efflux kinetics data suggested that all periplasmic suppressors significantly restored nitrocefin binding affinity impaired by the F610A mutation. Surprisingly, despite increasing MICs of tested antibiotics and the efflux of N-phenyl-1-naphthylamine, the TM suppressors did not improve the nitrocefin efflux kinetics. These data suggest that the periplasmic substitutions act by influencing drug binding affinities for the distal binding pocket, whereas the TM substitutions may indirectly affect the conformational dynamics of the drug binding domain.ImportanceThe AcrB protein and its homologues confer multidrug resistance in many important human bacterial pathogens. A greater understanding of how these efflux pump proteins function will lead to the development of effective inhibitors against them. The research presented in this paper investigates drug binding pocket mutants of AcrB through the isolation and characterization of intragenic suppressor mutations that overcome the drug susceptibility phenotype of mutations affecting the drug binding pocket. The data reveal a remarkable structure-function pl

Published

2015

27. Chimeric MicroRNA-1291 Biosynthesized Efficiently in Escherichia coli Is Effective to Reduce Target Gene Expression in Human Carcinoma Cells and Improve Chemosensitivity.

Author

Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick A, LaSalle, Janine M, Zeng, Su, Huang, Min, Yu, Ai-Ming, Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick A, LaSalle, Janine M, Zeng, Su, Huang, Min, and Yu, Ai-Ming

Abstract

In contrast to the growing interests in studying noncoding RNAs (ncRNAs) such as microRNA (miRNA or miR) pharmacoepigenetics, there is a lack of efficient means to cost effectively produce large quantities of natural miRNA agents. Our recent efforts led to a successful production of chimeric pre-miR-27b in bacteria using a transfer RNA (tRNA)-based recombinant RNA technology, but at very low expression levels. Herein, we present a high-yield expression of chimeric pre-miR-1291 in common Escherichia coli strains using the same tRNA scaffold. The tRNA fusion pre-miR-1291 (tRNA/mir-1291) was then purified to high homogeneity using affinity chromatography, whose primary sequence and post-transcriptional modifications were directly characterized by mass spectrometric analyses. Chimeric tRNA/mir-1291 was readily processed to mature miR-1291 in human carcinoma MCF-7 and PANC-1 cells. Consequently, recombinant tRNA/mir-1291 reduced the protein levels of miR-1291 target genes, including ABCC1, FOXA2, and MeCP2, as compared with cells transfected with the same doses of control methionyl-tRNA scaffold with a sephadex aptamer (tRNA/MSA). In addition, tRNA-carried pre-miR-1291 suppressed the growth of MCF-7 and PANC-1 cells in a dose-dependent manner, and significantly enhanced the sensitivity of ABCC1-overexpressing PANC-1 cells to doxorubicin. These results indicate that recombinant miR-1291 agent is effective in the modulation of target gene expression and chemosensitivity, which may provide insights into high-yield bioengineering of new ncRNA agents for pharmacoepigenetics research.

Published

2015

28. Apoptosome activation, an important molecular instigator in 6-mercaptopurine induced Leydig cell death.

Author

Morgan, Jessica A, Morgan, Jessica A, Lynch, John, Panetta, John C, Wang, Yao, Frase, Sharon, Bao, Ju, Zheng, Jie, Opferman, Joseph T, Janke, Laura, Green, Daniel M, Chemaitilly, Wassim, Schuetz, John D, Morgan, Jessica A, Morgan, Jessica A, Lynch, John, Panetta, John C, Wang, Yao, Frase, Sharon, Bao, Ju, Zheng, Jie, Opferman, Joseph T, Janke, Laura, Green, Daniel M, Chemaitilly, Wassim, and Schuetz, John D

Abstract

Leydig cells are crucial to the production of testosterone in males. It is unknown if the cancer chemotherapeutic drug, 6-mercaptopurine (6 MP), produces Leydig cell failure among adult survivors of childhood acute lymphoblastic leukemia. Moreover, it is not known whether Leydig cell failure is due to either a loss of cells or an impairment in their function. Herein, we show, in a subset of childhood cancer survivors, that Leydig cell failure is related to the dose of 6 MP. This was extended, in a murine model, to demonstrate that 6 MP exposure induced caspase 3 activation, and the loss of Leydig cells was independent of Bak and Bax activation. The death of these non-proliferating cells was triggered by 6 MP metabolism, requiring formation of both cytosolic reactive oxygen species and thiopurine nucleotide triphosphates. The thiopurine nucleotide triphosphates (with physiological amounts of dATP) uniquely activated the apoptosome. An ABC transporter (Abcc4/Mrp4) reduced the amount of thiopurines, thereby providing protection for Leydig cells. The studies reported here demonstrate that the apoptosome is uniquely activated by thiopurine nucleotides and suggest that 6 MP induced Leydig cell death is likely a cause of Leydig cell failure in some survivors of childhood cancer.

Published

2015

29. Impact of antimalarial treatment and chemoprevention on the drug sensitivity of malaria parasites isolated from ugandan children.

Author

Tumwebaze, Patrick, Tumwebaze, Patrick, Conrad, Melissa D, Walakira, Andrew, LeClair, Norbert, Byaruhanga, Oswald, Nakazibwe, Christine, Kozak, Benjamin, Bloome, Jessica, Okiring, Jaffer, Kakuru, Abel, Bigira, Victor, Kapisi, James, Legac, Jennifer, Gut, Jiri, Cooper, Roland A, Kamya, Moses R, Havlir, Diane V, Dorsey, Grant, Greenhouse, Bryan, Nsobya, Samuel L, Rosenthal, Philip J, Tumwebaze, Patrick, Tumwebaze, Patrick, Conrad, Melissa D, Walakira, Andrew, LeClair, Norbert, Byaruhanga, Oswald, Nakazibwe, Christine, Kozak, Benjamin, Bloome, Jessica, Okiring, Jaffer, Kakuru, Abel, Bigira, Victor, Kapisi, James, Legac, Jennifer, Gut, Jiri, Cooper, Roland A, Kamya, Moses R, Havlir, Diane V, Dorsey, Grant, Greenhouse, Bryan, Nsobya, Samuel L, and Rosenthal, Philip J

Abstract

Changing treatment practices may be selecting for changes in the drug sensitivity of malaria parasites. We characterized ex vivo drug sensitivity and parasite polymorphisms associated with sensitivity in 459 Plasmodium falciparum samples obtained from subjects enrolled in two clinical trials in Tororo, Uganda, from 2010 to 2013. Sensitivities to chloroquine and monodesethylamodiaquine varied widely; sensitivities to quinine, dihydroartemisinin, lumefantrine, and piperaquine were generally good. Associations between ex vivo drug sensitivity and parasite polymorphisms included decreased chloroquine and monodesethylamodiaquine sensitivity and increased lumefantrine and piperaquine sensitivity with pfcrt 76T, as well as increased lumefantrine sensitivity with pfmdr1 86Y, Y184, and 1246Y. Over time, ex vivo sensitivity decreased for lumefantrine and piperaquine and increased for chloroquine, the prevalences of pfcrt K76 and pfmdr1 N86 and D1246 increased, and the prevalences of pfdhfr and pfdhps polymorphisms associated with antifolate resistance were unchanged. In recurrent infections, recent prior treatment with artemether-lumefantrine was associated with decreased ex vivo lumefantrine sensitivity and increased prevalence of pfcrt K76 and pfmdr1 N86, 184F, and D1246. In children assigned chemoprevention with monthly dihydroartemisinin-piperaquine with documented circulating piperaquine, breakthrough infections had increased the prevalence of pfmdr1 86Y and 1246Y compared to untreated controls. The noted impacts of therapy and chemoprevention on parasite polymorphisms remained significant in multivariate analysis correcting for calendar time. Overall, changes in parasite sensitivity were consistent with altered selective pressures due to changing treatment practices in Uganda. These changes may threaten the antimalarial treatment and preventive efficacies of artemether-lumefantrine and dihydroartemisinin-piperaquine, respectively.

Published

2015

30. Chimeric MicroRNA-1291 Biosynthesized Efficiently in Escherichia coli Is Effective to Reduce Target Gene Expression in Human Carcinoma Cells and Improve Chemosensitivity.

Author

Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick, Zeng, Su, Huang, Min, LaSalle, Janine, Yu, Aiming, Li, Mei-Mei, Li, Mei-Mei, Addepalli, Balasubrahmanyam, Tu, Mei-Juan, Chen, Qiu-Xia, Wang, Wei-Peng, Limbach, Patrick, Zeng, Su, Huang, Min, LaSalle, Janine, and Yu, Aiming

Abstract

In contrast to the growing interests in studying noncoding RNAs (ncRNAs) such as microRNA (miRNA or miR) pharmacoepigenetics, there is a lack of efficient means to cost effectively produce large quantities of natural miRNA agents. Our recent efforts led to a successful production of chimeric pre-miR-27b in bacteria using a transfer RNA (tRNA)-based recombinant RNA technology, but at very low expression levels. Herein, we present a high-yield expression of chimeric pre-miR-1291 in common Escherichia coli strains using the same tRNA scaffold. The tRNA fusion pre-miR-1291 (tRNA/mir-1291) was then purified to high homogeneity using affinity chromatography, whose primary sequence and post-transcriptional modifications were directly characterized by mass spectrometric analyses. Chimeric tRNA/mir-1291 was readily processed to mature miR-1291 in human carcinoma MCF-7 and PANC-1 cells. Consequently, recombinant tRNA/mir-1291 reduced the protein levels of miR-1291 target genes, including ABCC1, FOXA2, and MeCP2, as compared with cells transfected with the same doses of control methionyl-tRNA scaffold with a sephadex aptamer (tRNA/MSA). In addition, tRNA-carried pre-miR-1291 suppressed the growth of MCF-7 and PANC-1 cells in a dose-dependent manner, and significantly enhanced the sensitivity of ABCC1-overexpressing PANC-1 cells to doxorubicin. These results indicate that recombinant miR-1291 agent is effective in the modulation of target gene expression and chemosensitivity, which may provide insights into high-yield bioengineering of new ncRNA agents for pharmacoepigenetics research.

Published

2015

31. Genetic heterogeneity of pseudoxanthoma elasticum: the Chinese signature profile of ABCC6 and ENPP1 mutations.

Author

Jin, Liang, Jiang, Qiujie, Wu, Zhengsheng, Shao, Changxia, Zhou, Yong, Yang, Luting, Uitto, Jouni, Wang, Gang, Jin, Liang, Jiang, Qiujie, Wu, Zhengsheng, Shao, Changxia, Zhou, Yong, Yang, Luting, Uitto, Jouni, and Wang, Gang

Abstract

Pseudoxanthoma elasticum (PXE), an autosomal recessive disorder characterized by ectopic mineralization, is caused by mutations in the ABCC6 gene. We examined clinically 29 Chinese PXE patients from unrelated families, so far the largest cohort of Asian PXE patients. In a subset of 22 patients, we sequenced ABCC6 and another candidate gene, ENPP1, and conducted pathogenicity analyses for each variant. We identified a total of 17 distinct mutations in ABCC6, 15 of them being, to our knowledge, previously unreported, including 5 frameshift and 10 missense variants. In addition, a missense mutation in combination with a recurrent nonsense mutation in ENPP1 was discovered in a pediatric PXE case. No cases with p.R1141X or del23-29 mutations, common in Caucasian patient populations, were identified. The 10 missense mutations in ABCC6 were expressed in the mouse liver via hydrodynamic tail-vein injections. One mutant protein showed cytoplasmic accumulation indicating abnormal subcellular trafficking, while the other nine mutants showed correct plasma membrane location. These nine mutations were further investigated for their pathogenicity using a recently developed zebrafish mRNA rescue assay. Minimal rescue of the morpholino-induced phenotype was achieved with eight of the nine mutant human ABCC6 mRNAs tested, implying pathogenicity. This study demonstrates that the Chinese PXE population harbors unique ABCC6 mutations. These genetic data have implications for allele-specific therapy currently being developed for PXE.

Published

2015

32. Chronic kidney disease results in deficiency of ABCC6, the novel inhibitor of vascular calcification.

Author

Lau, Wei Ling, Lau, Wei Ling, Liu, Shuman, Vaziri, Nosratola D, Lau, Wei Ling, Lau, Wei Ling, Liu, Shuman, and Vaziri, Nosratola D

Abstract

BACKGROUND:Chronic kidney disease (CKD) is associated with arterial medial calcification which plays a major role in the pathogenesis of cardiovascular disease in this population. Several factors are known to promote soft tissue and accelerated arterial calcification in CKD including systemic inflammation, altered calcium and phosphate homeostasis, hypertension, and deficiency of endogenous calcification inhibitors. The ABCC6 transporter (ATP-binding cassette subfamily C number 6), also known as multidrug resistance-associated protein 6 (MRP6), is highly expressed in the liver and kidney. Mutation of ABCC6 results in pseudoxanthoma elasticum, an inherited disorder characterized by arterial and soft tissue calcification. Given the prevalence of arterial medial calcification in CKD, the present study was undertaken to test the hypothesis that CKD may lead to acquired ABCC6 deficiency. METHODS:CKD was induced via 5/6 nephrectomy in male Sprague-Dawley rats and by adenine-containing diet to cause chronic interstitial nephropathy in female DBA/2J mice. Sham-operated rats and mice fed regular diet served as controls. Liver and kidney tissues were harvested and processed for ABCC6 protein and mRNA analysis. RESULTS:ABCC6 protein levels were significantly reduced in the liver and kidney tissues from CKD rats and mice. However, ABCC6 mRNA levels were unchanged, pointing to post-transcriptional or post-translational mechanisms for the observed ABCC6 deficiency. Additionally, plasma levels of the calcification inhibitor fetuin-A were significantly decreased in CKD animals compared to controls. CONCLUSIONS:CKD results in acquired ABCC6 transporter deficiency. To our knowledge this abnormality has not been previously reported and may contribute to CKD-associated vascular and soft tissue calcification.

Published

2014

33. ABCC4 is regulated by microRNA-124a and microRNA-506.

Author

Markova, Svetlana M, Markova, Svetlana M, Kroetz, Deanna L, Markova, Svetlana M, Markova, Svetlana M, and Kroetz, Deanna L

Abstract

Multidrug resistance protein 4 (MRP4, ABCC4) is an efflux membrane transporter expressed in renal tubules, hepatocytes, brain capillaries, prostate and blood cells. MRP4 drives energy dependent efflux of important physiological and pharmacological compounds. MRP4 expression and function is highly variable but cannot be fully attributed to known mechanisms. The goal of this study was to characterize ABCC4 regulation by miRNAs and to assess the influence of ABCC4 3'-UTR polymorphisms on ABCC4 regulation by miRNAs. miR-124a and miR-506 decreased MRP4 protein levels in HEK293T/17 cells 20-30% and MRP4 function by 50%. These miRNAs did not affect ABCC4 mRNA expression. Moreover, miR-124a and miR-506 expression was negatively correlated with MRP4 protein expression in 26 human kidney samples (Spearman r=-0.62, P=0.007 and r=-0.41, P=0.03 for miR-124a and miR-506, respectively). To assess the effect of ABCC4 3'-UTR polymorphisms, six common 3'-UTR haplotypes were inferred in Caucasians, African Americans and Asians and tested in luciferase reporter assays. Multiple ABCC4 3'-UTR haplotypes caused significant reductions in luciferase activity; in the presence of miR-124a or miR-506 mimics the luciferase activity of all six ABCC4 3'-UTR haplotypes was further reduced. Mutation of the putative binding site for miR-124a and miR-506 in the ABCC4 3'-UTR eliminated the effect of these miRNAs. In conclusion, ABCC4 is directly regulated by miR-124a and miR-506 but polymorphisms in the ABCC4 3'-UTR have no significant effect on this miRNA regulation. Regulation of ABCC4 by miRNAs represents a novel mechanism for regulation of MRP4 function.

Published

2014

34. The level of hepatic ABCC6 expression determines the severity of calcification after cardiac injury

Author

Brampton, Christopher, Aherrahrou, Zouhair, Chen, Li-Hsieh, Martin, Ludovic, Bergen, Arthur A B, Gorgels, Theo G M F, Erdmann, Jeannette, Erdfdi, Jeannette, Schunkert, Heribert, Szabó, Zalán, Váradi, András, Le Saux, Olivier, Brampton, Christopher, Aherrahrou, Zouhair, Chen, Li-Hsieh, Martin, Ludovic, Bergen, Arthur A B, Gorgels, Theo G M F, Erdmann, Jeannette, Erdfdi, Jeannette, Schunkert, Heribert, Szabó, Zalán, Váradi, András, and Le Saux, Olivier

Abstract

Because vascular or cardiac mineralization is inversely correlated with morbidity and long-term survival, we investigated the role of ABCC6 in the calcification response to cardiac injury in mice. By using two models of infarction, nonischemic cryoinjury and the pathologically relevant coronary artery ligation, we confirmed a large propensity to acute cardiac mineralization in Abcc6−/− mice. Furthermore, when the expression of ABCC6 was reduced to approximately 38% of wild-type levels in Abcc6+/− mice, no calcium deposits in injured cardiac tissue were observed. In addition, we used a gene therapy approach to deliver a functional human ABCC6 via hydrodynamic tail vein injection to approximately 13% of mouse hepatocytes, significantly reducing the calcification response to cardiac cryoinjury. We observed that the level and distribution of known regulators of mineralization, such as osteopontin and matrix Gla protein, but not osteocalcin, were concomitant to the level of hepatic expression of human and mouse ABCC6. We notably found that undercarboxylated matrix Gla protein precisely colocalized within areas of mineralization, whereas osteopontin was more diffusely distributed in the area of injury, suggesting a prominent association for matrix Gla protein and osteopontin in ABCC6-related dystrophic cardiac calcification. This study showed that the expression of ABCC6 in liver is an important determinant of calcification in cardiac tissues in response to injuries and is associated with changes in the expression patterns of regulators of mineralization.

Published

2014

35. ABCC6-mediated ATP secretion by the liver is the main source of the mineralization inhibitor inorganic pyrophosphate in the systemic circulation-brief report

Author

Jansen, Robert S, Duijst, Suzanne, Mahakena, Sunny, Sommer, Daniela, Szeri, Flóra, Váradi, András, Plomp, A.S., Bergen, Arthur A, Oude Elferink, Ronald P J, Borst, Piet, van de Wetering, Koen, Jansen, Robert S, Duijst, Suzanne, Mahakena, Sunny, Sommer, Daniela, Szeri, Flóra, Váradi, András, Plomp, A.S., Bergen, Arthur A, Oude Elferink, Ronald P J, Borst, Piet, and van de Wetering, Koen

Abstract

OBJECTIVE: Mutations in ABCC6 underlie the ectopic mineralization disorder pseudoxanthoma elasticum (PXE) and some forms of generalized arterial calcification of infancy, both of which affect the cardiovascular system. Using cultured cells, we recently showed that ATP-binding cassette subfamily C member 6 (ABCC6) mediates the cellular release of ATP, which is extracellularly rapidly converted into AMP and the mineralization inhibitor inorganic pyrophosphate (PPi). The current study was performed to determine which tissues release ATP in an ABCC6-dependent manner in vivo, where released ATP is converted into AMP and PPi, and whether human PXE ptients have low plasma PPi concentrations.APPROACH AND RESULTS: Using cultured primary hepatocytes and in vivo liver perfusion experiments, we found that ABCC6 mediates the direct, sinusoidal, release of ATP from the liver. Outside hepatocytes, but still within the liver vasculature, released ATP is converted into AMP and PPi. The absence of functional ABCC6 in patients with PXE leads to strongly reduced plasma PPi concentrations.CONCLUSIONS: Hepatic ABCC6-mediated ATP release is the main source of circulating PPi, revealing an unanticipated role of the liver in systemic PPi homeostasis. Patients with PXE have a strongly reduced plasma PPi level, explaining their mineralization disorder. Our results indicate that systemic PPi is relatively stable and that PXE, generalized arterial calcification of infancy, and other ectopic mineralization disorders could be treated with PPi supplementation therapy.

Published

2014

36. Chronic kidney disease results in deficiency of ABCC6, the novel inhibitor of vascular calcification.

Author

Lau, Wei Ling, Lau, Wei Ling, Liu, Shuman, Vaziri, Nosratola D, Lau, Wei Ling, Lau, Wei Ling, Liu, Shuman, and Vaziri, Nosratola D

Abstract

BACKGROUND:Chronic kidney disease (CKD) is associated with arterial medial calcification which plays a major role in the pathogenesis of cardiovascular disease in this population. Several factors are known to promote soft tissue and accelerated arterial calcification in CKD including systemic inflammation, altered calcium and phosphate homeostasis, hypertension, and deficiency of endogenous calcification inhibitors. The ABCC6 transporter (ATP-binding cassette subfamily C number 6), also known as multidrug resistance-associated protein 6 (MRP6), is highly expressed in the liver and kidney. Mutation of ABCC6 results in pseudoxanthoma elasticum, an inherited disorder characterized by arterial and soft tissue calcification. Given the prevalence of arterial medial calcification in CKD, the present study was undertaken to test the hypothesis that CKD may lead to acquired ABCC6 deficiency. METHODS:CKD was induced via 5/6 nephrectomy in male Sprague-Dawley rats and by adenine-containing diet to cause chronic interstitial nephropathy in female DBA/2J mice. Sham-operated rats and mice fed regular diet served as controls. Liver and kidney tissues were harvested and processed for ABCC6 protein and mRNA analysis. RESULTS:ABCC6 protein levels were significantly reduced in the liver and kidney tissues from CKD rats and mice. However, ABCC6 mRNA levels were unchanged, pointing to post-transcriptional or post-translational mechanisms for the observed ABCC6 deficiency. Additionally, plasma levels of the calcification inhibitor fetuin-A were significantly decreased in CKD animals compared to controls. CONCLUSIONS:CKD results in acquired ABCC6 transporter deficiency. To our knowledge this abnormality has not been previously reported and may contribute to CKD-associated vascular and soft tissue calcification.

Published

2014

37. Enhanced inhibition of prostate cancer xenograft tumor growth by combining quercetin and green tea.

Author

Wang, Piwen, Wang, Piwen, Vadgama, Jaydutt V, Said, Jonathan W, Magyar, Clara E, Doan, Ngan, Heber, David, Henning, Susanne M, Wang, Piwen, Wang, Piwen, Vadgama, Jaydutt V, Said, Jonathan W, Magyar, Clara E, Doan, Ngan, Heber, David, and Henning, Susanne M

Abstract

The chemopreventive activity of green tea (GT) is limited by the low bioavailability and extensive methylation of GT polyphenols (GTPs) in vivo. We determined whether a methylation inhibitor quercetin (Q) will enhance the chemoprevention of prostate cancer in vivo. Androgen-sensitive LAPC-4 prostate cancer cells were injected subcutaneously into severe combined immunodeficiency (SCID) mice one week before the intervention. The concentration of GTPs in brewed tea administered as drinking water was 0.07% and Q was supplemented in diet at 0.2% or 0.4%. After 6-weeks of intervention tumor growth was inhibited by 3% (0.2% Q), 15% (0.4% Q), 21% (GT), 28% (GT+0.2% Q) and 45% (GT+0.4% Q) compared to control. The concentration of non-methylated GTPs was significantly increased in tumor tissue with GT+0.4% Q treatment compared to GT alone, and was associated with a decreased protein expression of catechol-O-methyltransferase and multidrug resistance-associated protein (MRP)-1. The combination treatment was also associated with a significant increase in the inhibition of proliferation, androgen receptor and phosphatidylinositol 3-kinase/Akt signaling, and stimulation of apoptosis. The combined effect of GT+0.4% Q on tumor inhibition was further confirmed in another experiment where the intervention started prior to tumor inoculation. These results provide a novel regimen by combining GT and Q to improve chemoprevention in a non-toxic manner and warrant future studies in humans.

Published

2014

38. Differential prevalence of transporter polymorphisms in symptomatic and asymptomatic falciparum malaria infections in Uganda.

Author

Tukwasibwe, Stephen, Tukwasibwe, Stephen, Mugenyi, Levi, Mbogo, George W, Nankoberanyi, Sheila, Maiteki-Sebuguzi, Catherine, Joloba, Moses L, Nsobya, Samuel L, Staedke, Sarah G, Rosenthal, Philip J, Tukwasibwe, Stephen, Tukwasibwe, Stephen, Mugenyi, Levi, Mbogo, George W, Nankoberanyi, Sheila, Maiteki-Sebuguzi, Catherine, Joloba, Moses L, Nsobya, Samuel L, Staedke, Sarah G, and Rosenthal, Philip J

Abstract

We explored associations between Plasmodium falciparum drug resistance-mediating polymorphisms and clinical presentations in parasitemic children enrolled in a cross-sectional survey in Tororo, Uganda, using a retrospective case-control design. All 243 febrile children (cases) and 243 randomly selected asymptomatic children (controls) were included. In a multivariate analysis adjusting for age, complexity of infection, and parasite density, the prevalence of wild-type genotypes was significantly higher in febrile children compared to asymptomatic children (pfcrt K76T: odds ratio [OR] 4.41 [95% confidence interval {CI}, 1.28-15.1]; pfmdr1 N86Y: OR 4.08 [95% CI, 2.01-8.31], and pfmdr1 D1246Y: OR 4.90 [95% CI, 1.52-15.8]), suggesting greater virulence for wild-type parasites.

Published

2014

39. Temporal changes in prevalence of molecular markers mediating antimalarial drug resistance in a high malaria transmission setting in Uganda.

Author

Mbogo, George W, Mbogo, George W, Nankoberanyi, Sheila, Tukwasibwe, Stephen, Baliraine, Frederick N, Nsobya, Samuel L, Conrad, Melissa D, Arinaitwe, Emmanuel, Kamya, Moses, Tappero, Jordan, Staedke, Sarah G, Dorsey, Grant, Greenhouse, Bryan, Rosenthal, Philip J, Mbogo, George W, Mbogo, George W, Nankoberanyi, Sheila, Tukwasibwe, Stephen, Baliraine, Frederick N, Nsobya, Samuel L, Conrad, Melissa D, Arinaitwe, Emmanuel, Kamya, Moses, Tappero, Jordan, Staedke, Sarah G, Dorsey, Grant, Greenhouse, Bryan, and Rosenthal, Philip J

Abstract

Standard therapy for malaria in Uganda changed from chloroquine to chloroquine + sulfadoxine-pyrimethamine in 2000, and artemether-lumefantrine in 2004, although implementation of each change was slow. Plasmodium falciparum genetic polymorphisms are associated with alterations in drug sensitivity. We followed the prevalence of drug resistance-mediating P. falciparum polymorphisms in 982 samples from Tororo, a region of high transmission intensity, collected from three successive treatment trials conducted during 2003-2012, excluding samples with known recent prior treatment. Considering transporter mutations, prevalence of the mutant pfcrt 76T, pfmdr1 86Y, and pfmdr1 1246Y alleles decreased over time. Considering antifolate mutations, the prevalence of pfdhfr 51I, 59R, and 108N, and pfdhps 437G and 540E were consistently high; pfdhfr 164L and pfdhps 581G were uncommon, but most prevalent during 2008-2010. Our data suggest sequential selective pressures as different treatments were implemented, and they highlight the importance of genetic surveillance as treatment policies change over time.

Published

2014

40. Using Drosophila melanogaster to identify chemotherapy toxicity genes.

Author

King, Elizabeth G, King, Elizabeth G, Kislukhin, Galina, Walters, Kelli N, Long, Anthony D, King, Elizabeth G, King, Elizabeth G, Kislukhin, Galina, Walters, Kelli N, and Long, Anthony D

Abstract

The severity of the toxic side effects of chemotherapy shows a great deal of interindividual variability, and much of this variation is likely genetically based. Simple DNA tests predictive of toxic side effects could revolutionize the way chemotherapy is carried out. Due to the challenges in identifying polymorphisms that affect toxicity in humans, we use Drosophila fecundity following oral exposure to carboplatin, gemcitabine and mitomycin C as a model system to identify naturally occurring DNA variants predictive of toxicity. We use the Drosophila Synthetic Population Resource (DSPR), a panel of recombinant inbred lines derived from a multiparent advanced intercross, to map quantitative trait loci affecting chemotoxicity. We identify two QTL each for carboplatin and gemcitabine toxicity and none for mitomycin. One QTL is associated with fly orthologs of a priori human carboplatin candidate genes ABCC2 and MSH2, and a second QTL is associated with fly orthologs of human gemcitabine candidate genes RRM2 and RRM2B. The third, a carboplatin QTL, is associated with a posteriori human orthologs from solute carrier family 7A, INPP4A&B, and NALCN. The fourth, a gemcitabine QTL that also affects methotrexate toxicity, is associated with human ortholog GPx4. Mapped QTL each explain a significant fraction of variation in toxicity, yet individual SNPs and transposable elements in the candidate gene regions fail to singly explain QTL peaks. Furthermore, estimates of founder haplotype effects are consistent with genes harboring several segregating functional alleles. We find little evidence for nonsynonymous SNPs explaining mapped QTL; thus it seems likely that standing variation in toxicity is due to regulatory alleles.

Published

2014

41. ABCC4 is regulated by microRNA-124a and microRNA-506.

Author

Markova, Svetlana M, Markova, Svetlana M, Kroetz, Deanna L, Markova, Svetlana M, Markova, Svetlana M, and Kroetz, Deanna L

Abstract

Multidrug resistance protein 4 (MRP4, ABCC4) is an efflux membrane transporter expressed in renal tubules, hepatocytes, brain capillaries, prostate and blood cells. MRP4 drives energy dependent efflux of important physiological and pharmacological compounds. MRP4 expression and function is highly variable but cannot be fully attributed to known mechanisms. The goal of this study was to characterize ABCC4 regulation by miRNAs and to assess the influence of ABCC4 3'-UTR polymorphisms on ABCC4 regulation by miRNAs. miR-124a and miR-506 decreased MRP4 protein levels in HEK293T/17 cells 20-30% and MRP4 function by 50%. These miRNAs did not affect ABCC4 mRNA expression. Moreover, miR-124a and miR-506 expression was negatively correlated with MRP4 protein expression in 26 human kidney samples (Spearman r=-0.62, P=0.007 and r=-0.41, P=0.03 for miR-124a and miR-506, respectively). To assess the effect of ABCC4 3'-UTR polymorphisms, six common 3'-UTR haplotypes were inferred in Caucasians, African Americans and Asians and tested in luciferase reporter assays. Multiple ABCC4 3'-UTR haplotypes caused significant reductions in luciferase activity; in the presence of miR-124a or miR-506 mimics the luciferase activity of all six ABCC4 3'-UTR haplotypes was further reduced. Mutation of the putative binding site for miR-124a and miR-506 in the ABCC4 3'-UTR eliminated the effect of these miRNAs. In conclusion, ABCC4 is directly regulated by miR-124a and miR-506 but polymorphisms in the ABCC4 3'-UTR have no significant effect on this miRNA regulation. Regulation of ABCC4 by miRNAs represents a novel mechanism for regulation of MRP4 function.

Published

2014

42. The level of hepatic ABCC6 expression determines the severity of calcification after cardiac injury

Author

Brampton, Christopher, Aherrahrou, Zouhair, Chen, Li-Hsieh, Martin, Ludovic, Bergen, Arthur A B, Gorgels, Theo G M F, Erdmann, Jeannette, Erdfdi, Jeannette, Schunkert, Heribert, Szabó, Zalán, Váradi, András, Le Saux, Olivier, Brampton, Christopher, Aherrahrou, Zouhair, Chen, Li-Hsieh, Martin, Ludovic, Bergen, Arthur A B, Gorgels, Theo G M F, Erdmann, Jeannette, Erdfdi, Jeannette, Schunkert, Heribert, Szabó, Zalán, Váradi, András, and Le Saux, Olivier

Abstract

Because vascular or cardiac mineralization is inversely correlated with morbidity and long-term survival, we investigated the role of ABCC6 in the calcification response to cardiac injury in mice. By using two models of infarction, nonischemic cryoinjury and the pathologically relevant coronary artery ligation, we confirmed a large propensity to acute cardiac mineralization in Abcc6−/− mice. Furthermore, when the expression of ABCC6 was reduced to approximately 38% of wild-type levels in Abcc6+/− mice, no calcium deposits in injured cardiac tissue were observed. In addition, we used a gene therapy approach to deliver a functional human ABCC6 via hydrodynamic tail vein injection to approximately 13% of mouse hepatocytes, significantly reducing the calcification response to cardiac cryoinjury. We observed that the level and distribution of known regulators of mineralization, such as osteopontin and matrix Gla protein, but not osteocalcin, were concomitant to the level of hepatic expression of human and mouse ABCC6. We notably found that undercarboxylated matrix Gla protein precisely colocalized within areas of mineralization, whereas osteopontin was more diffusely distributed in the area of injury, suggesting a prominent association for matrix Gla protein and osteopontin in ABCC6-related dystrophic cardiac calcification. This study showed that the expression of ABCC6 in liver is an important determinant of calcification in cardiac tissues in response to injuries and is associated with changes in the expression patterns of regulators of mineralization.

Published

2014

43. ABCC6-mediated ATP secretion by the liver is the main source of the mineralization inhibitor inorganic pyrophosphate in the systemic circulation-brief report

Author

Jansen, Robert S, Duijst, Suzanne, Mahakena, Sunny, Sommer, Daniela, Szeri, Flóra, Váradi, András, Plomp, A.S., Bergen, Arthur A, Oude Elferink, Ronald P J, Borst, Piet, van de Wetering, Koen, Jansen, Robert S, Duijst, Suzanne, Mahakena, Sunny, Sommer, Daniela, Szeri, Flóra, Váradi, András, Plomp, A.S., Bergen, Arthur A, Oude Elferink, Ronald P J, Borst, Piet, and van de Wetering, Koen

Abstract

OBJECTIVE: Mutations in ABCC6 underlie the ectopic mineralization disorder pseudoxanthoma elasticum (PXE) and some forms of generalized arterial calcification of infancy, both of which affect the cardiovascular system. Using cultured cells, we recently showed that ATP-binding cassette subfamily C member 6 (ABCC6) mediates the cellular release of ATP, which is extracellularly rapidly converted into AMP and the mineralization inhibitor inorganic pyrophosphate (PPi). The current study was performed to determine which tissues release ATP in an ABCC6-dependent manner in vivo, where released ATP is converted into AMP and PPi, and whether human PXE ptients have low plasma PPi concentrations.APPROACH AND RESULTS: Using cultured primary hepatocytes and in vivo liver perfusion experiments, we found that ABCC6 mediates the direct, sinusoidal, release of ATP from the liver. Outside hepatocytes, but still within the liver vasculature, released ATP is converted into AMP and PPi. The absence of functional ABCC6 in patients with PXE leads to strongly reduced plasma PPi concentrations.CONCLUSIONS: Hepatic ABCC6-mediated ATP release is the main source of circulating PPi, revealing an unanticipated role of the liver in systemic PPi homeostasis. Patients with PXE have a strongly reduced plasma PPi level, explaining their mineralization disorder. Our results indicate that systemic PPi is relatively stable and that PXE, generalized arterial calcification of infancy, and other ectopic mineralization disorders could be treated with PPi supplementation therapy.

Published

2014

44. Clinical and histopathological characteristics of a family with R1141X mutation of pseudoxanthoma elasticum - presymptomatic testing and lack of carrier phenotypes.

Author

Akoglu, Gulsen, Li, Qiaoli, Gokoz, Ozay, Gazyagci, Ali Serhan, Uitto, Jouni, Akoglu, Gulsen, Li, Qiaoli, Gokoz, Ozay, Gazyagci, Ali Serhan, and Uitto, Jouni

Abstract

BACKGROUND: Pseudoxanthoma elasticum (PXE) is a heritable ectopic mineralization disorder affecting cutaneous, ocular, and cardiovascular systems, caused by mutations in the ABCC6 gene. PXE presents with a marked clinical and genetic heterogeneity. Furthermore, heterozygous carriers may present with limited histopathological features. This study was conducted to investigate a patient with PXE and her family members clinically, histopathologically, and genetically. METHODS: Clinical and histopathological examinations and mutation analyses of ABCC6 gene were performed. RESULTS: Lesional skin biopsy of the patient with PXE demonstrated clumping and fragmentation of elastic fibers, and calcification in the dermis. Non-lesional axillary skin samples of the husband, daughter, and older son were histopathologically normal. The skin from a similar region of a younger son revealed elastic fibers with some fragmentation and clumping but no mineralization. The patient with PXE was homozygous for the R1141X mutation in the ABCC6 gene. The husband had wild-type alleles, while all children were heterozygous carriers. Daily treatment of antioxidant therapy with tocopherol acetate and ascorbic acid was prescribed to the patient with PXE. After one year, both clinical and histopathological regression of the lesions was observed; however, lesions began to progress during the additional 6-month period of treatment. CONCLUSION: The mutation analyses of ABCC6 gene are important to determine the genotype of both patients with PXE and putative heterozygous carriers, as histopathological features of carriers may differ even in the same family. The role of antioxidant therapy for PXE is unclear, and there is a need for controlled clinical trials.

Published

2014

45. The relationship of polymorphisms in ABCC2 and SLCO1B3 with docetaxel pharmacokinetics and neutropenia: CALGB 60805 (Alliance).

Author

Lewis, Lionel, Lewis, Lionel, Miller, Antonius, Owzar, Kouros, Bies, Robert, Markova, Svetlana, Jiang, Chen, Egorin, Merrill, McLeod, Howard, Ratain, Mark, Kroetz, Deanna, Lewis, Lionel, Lewis, Lionel, Miller, Antonius, Owzar, Kouros, Bies, Robert, Markova, Svetlana, Jiang, Chen, Egorin, Merrill, McLeod, Howard, Ratain, Mark, and Kroetz, Deanna

Abstract

Docetaxel-related neutropenia was associated with polymorphisms in the drug transporters ABCC2 and SLCO1B3 in Japanese cancer patients. We hypothesized that this association is because of reduced docetaxel clearance, associated with polymorphisms in those genes. We studied 64 US cancer patients who received a single cycle of 75 mg/m of docetaxel monotherapy. We found that the ABCC2 polymorphism at rs-12762549 trended to show a relationship with reduced docetaxel clearance (P=0.048), but not with neutropenia. There was no significant association of the SLCO1B3 polymorphisms with docetaxel clearance or neutropenia. We conclude that the relationship between docetaxel-associated neutropenia and polymorphisms in drug transporters identified in Japanese patients was not confirmed in this cohort of US cancer patients.

Published

2013

46. The relationship of polymorphisms in ABCC2 and SLCO1B3 with docetaxel pharmacokinetics and neutropenia: CALGB 60805 (Alliance).

Author

Lewis, Lionel D, Lewis, Lionel D, Miller, Antonius A, Owzar, Kouros, Bies, Robert R, Markova, Svetlana, Jiang, Chen, Kroetz, Deanna L, Egorin, Merrill J, McLeod, Howard L, Ratain, Mark J, Alliance for Clinical Trials in Oncology, Lewis, Lionel D, Lewis, Lionel D, Miller, Antonius A, Owzar, Kouros, Bies, Robert R, Markova, Svetlana, Jiang, Chen, Kroetz, Deanna L, Egorin, Merrill J, McLeod, Howard L, Ratain, Mark J, and Alliance for Clinical Trials in Oncology

Abstract

Docetaxel-related neutropenia was associated with polymorphisms in the drug transporters ABCC2 and SLCO1B3 in Japanese cancer patients. We hypothesized that this association is because of reduced docetaxel clearance, associated with polymorphisms in those genes. We studied 64 US cancer patients who received a single cycle of 75 mg/m of docetaxel monotherapy. We found that the ABCC2 polymorphism at rs-12762549 trended to show a relationship with reduced docetaxel clearance (P=0.048), but not with neutropenia. There was no significant association of the SLCO1B3 polymorphisms with docetaxel clearance or neutropenia. We conclude that the relationship between docetaxel-associated neutropenia and polymorphisms in drug transporters identified in Japanese patients was not confirmed in this cohort of US cancer patients.

Published

2013

47. Genetic variation in the ABCC2 gene is associated with dose decreases or switches to other cholesterol-lowering drugs during simvastatin and atorvastatin therapy.

Author

UCL - SSS/LDRI - Louvain Drug Research Institute, Becker, M L, Elens, Laure, Visser, L E, Hofman, A, Uitterlinden, A G, van Schaik, R H N, Stricker, B H, UCL - SSS/LDRI - Louvain Drug Research Institute, Becker, M L, Elens, Laure, Visser, L E, Hofman, A, Uitterlinden, A G, van Schaik, R H N, and Stricker, B H

Abstract

Several statins are substrates for the multidrug resistance-associated protein 2 transporter, encoded by the ABCC2 gene. We analyzed in the Rotterdam Study whether the common polymorphisms -24C>T, 1249G>A and 3972C>T in the ABCC2 gene were associated with a dose decrease or switch to another cholesterol-lowering drug in simvastatin and atorvastatin users. These events could indicate an adverse effect or a too strong reduction in cholesterol level. We identified 1014 simvastatin and atorvastatin users during the period 1 January 1991 to 1 January 2010. Associations between genetic variation and the risk of these events were analyzed using Cox proportional hazards modelling. The ABCC2 -24C>T genotype (HR 1.32 95% CI 1.04-1.69) and the H12 haplotype versus the H2 haplotype (HR 1.49; 95% CI 1.06-2.09) were associated with these events in simvastatin users. A similar but not significant association was found in atorvastatin users. To conclude, genetic variation in the ABCC2 gene is associated with these events in simvastatin users.

Published

2013

48. The relationship of polymorphisms in ABCC2 and SLCO1B3 with docetaxel pharmacokinetics and neutropenia: CALGB 60805 (Alliance).

Author

Lewis, Lionel D, Lewis, Lionel D, Miller, Antonius A, Owzar, Kouros, Bies, Robert R, Markova, Svetlana, Jiang, Chen, Kroetz, Deanna L, Egorin, Merrill J, McLeod, Howard L, Ratain, Mark J, Alliance for Clinical Trials in Oncology, Lewis, Lionel D, Lewis, Lionel D, Miller, Antonius A, Owzar, Kouros, Bies, Robert R, Markova, Svetlana, Jiang, Chen, Kroetz, Deanna L, Egorin, Merrill J, McLeod, Howard L, Ratain, Mark J, and Alliance for Clinical Trials in Oncology

Abstract

Docetaxel-related neutropenia was associated with polymorphisms in the drug transporters ABCC2 and SLCO1B3 in Japanese cancer patients. We hypothesized that this association is because of reduced docetaxel clearance, associated with polymorphisms in those genes. We studied 64 US cancer patients who received a single cycle of 75 mg/m of docetaxel monotherapy. We found that the ABCC2 polymorphism at rs-12762549 trended to show a relationship with reduced docetaxel clearance (P=0.048), but not with neutropenia. There was no significant association of the SLCO1B3 polymorphisms with docetaxel clearance or neutropenia. We conclude that the relationship between docetaxel-associated neutropenia and polymorphisms in drug transporters identified in Japanese patients was not confirmed in this cohort of US cancer patients.

Published

2013

49. Paediatric pseudoxanthoma elasticum with cardiovascular involvement.

Author

Li, Q, Baker, J, Kowalczyk, J, Jiang, Q, Uitto, Jouni, Schachner, L, Li, Q, Baker, J, Kowalczyk, J, Jiang, Q, Uitto, Jouni, and Schachner, L

Abstract

BACKGROUND: Pseudoxanthoma elasticum (PXE) is characterized by aberrant mineralization of connective tissues, causing considerable morbidity and mortality. The disease is typically of late onset, the skin manifestations first being noted in the teens or later. Another aberrant mineralization disorder, generalized arterial calcification of infancy (GACI), is present at birth and can demonstrate a phenotypic overlap with PXE. OBJECTIVES: A patient with PXE was noted to have skin findings as early as at 6 years of age, with cardiovascular involvement. The purpose of this study was to examine the genetic basis of this phenotypic presentation in the spectrum of PXE/GACI. METHODS: The patient's genotype was studied by sequencing ABCC6 and ENPP1, genes known to be associated with PXE and/or GACI. RESULTS: Screening of the ABCC6 gene revealed two pathogenetic mutations, p.R1141X and g.del23-29. Analysis of the ENPP1 gene failed to demonstrate the presence of mutations. CONCLUSIONS: This study demonstrates the presence of cutaneous findings of PXE in an 8-year-old paediatric patient, with cardiovascular involvement, illustrating the phenotypic spectrum of PXE.

Published

2013

50. In vitro sensitivity of Plasmodium falciparum from China-Myanmar border area to major ACT drugs and polymorphisms in potential target genes.

Author

Wang, Zenglei, Wang, Zenglei, Parker, Daniel, Meng, Hao, Wu, Lanou, Li, Jia, Zhao, Zhen, Zhang, Rongping, Miao, Miao, Fan, Qi, Wang, Haiyan, Cui, Liwang, Yang, Zhaoqing, Wang, Zenglei, Wang, Zenglei, Parker, Daniel, Meng, Hao, Wu, Lanou, Li, Jia, Zhao, Zhen, Zhang, Rongping, Miao, Miao, Fan, Qi, Wang, Haiyan, Cui, Liwang, and Yang, Zhaoqing

Abstract

Drug resistance has always been one of the most important impediments to global malaria control. Artemisinin resistance has recently been confirmed in the Greater Mekong Subregion (GMS) and efforts for surveillance and containment are intensified. To determine potential mechanisms of artemisinin resistance and monitor the emergence and spread of resistance in other regions of the GMS, we investigated the in vitro sensitivity of 51 culture-adapted parasite isolates from the China-Myanmar border area to four drugs. The 50% inhibitory concentrations (IC₅₀s) of dihydroartemisinin, mefloquine and lumefantrine were clustered in a relatively narrow, 3- to 6-fold range, whereas the IC₅₀ range of artesunate was 12-fold. We assessed the polymorphisms of candidate resistance genes pfcrt, pfmdr1, pfATP6, pfmdr6 and pfMT (a putative metabolite/drug transporter). The K76T mutation in pfcrt reached fixation in the study parasite population, whereas point mutations in pfmdr1 and pfATP6 had low levels of prevalence. In addition, pfmdr1 gene amplification was not detected. None of the mutations in pfmdr1 and pfATP6 was associated significantly with in vitro sensitivity to artemisinin derivatives. The ABC transporter gene pfmdr6 harbored two point mutations, two indels, and number variations in three simple repeats. Only the length variation in a microsatellite repeat appeared associated with altered sensitivity to dihydroartemisinin. The PfMT gene had two point mutations and one codon deletion; the I30N and N496- both reached high levels of prevalence. However, none of the SNPs or haplotypes in PfMT were correlated significantly with resistance to the four tested drugs. Compared with other parasite populations from the GMS, our studies revealed drastically different genotype and drug sensitivity profiles in parasites from the China-Myanmar border area, where artemisinins have been deployed extensively for over 30 years.

Published

2012