Radio-labelling as a tool to investigate the absorption and bio-distribution of selected antimalarial drugs / Abraham Johannes Swanepoel

Swanepoel, Abraham Johannes

January 2014

Previous studies have shown that the formulation of an active pharmaceutical ingredient (API) entrapped in the Pheroid® (Pheroid for simplification) delivery system enhances absorption of the API, suppresses its metabolism, and may contribute to an increase in the quantity of the API present at the site of action. Higher drug levels at the active site should particularly increase the effectiveness of a drug with a narrow therapeutic index and reduce the incidence of the resistance that may otherwise arise if the sub-therapeutic levels of the API are in contact with the site of interest. Two approaches were followed in this study. First, the radioactive tracer molecule 99mTechnetium methylene diphosphonate (99mTc MDP) was used. Intravenously injected 99mTc MDP is an extremely effective bone-seeking radiopharmaceutical used in the diagnosis of bone disorders such as bone metastases in patients. However, if entrapped inside a Pheroid vesicle, it will locate to that site, usually an organ, where the Pheroid vesicles may tend to accumulate. Experiments conducted with 99mTc MDP alone or with Pheroid will therefore establish how efficiently Pheroid vesicles localize and will also indicate the preferred site of localization inside a body. The process would involve the oral administration of 99mTc MDP either alone or with Pheroid, involving an animal model. It would also involve tracking localization to particular organs, blood or other sites. The second approach requires the use of chloroquine (CQ) labeled with carbon-14 (14C-CQ,) to compare absorption of the drug both with and without the Pheroid system. The intention was to compare oral absorption and bio-distribution of 14C-CQ administered either alone or entrapped in the Pheroid system. It was also possible to establish whether the Pheroid affects the biological half-lives of the CQ and residence times of CQ in the different organs of the body. Absorption of free 99mTc MDP (orally adminsistered) through the intestinal tract is negligible but it was anticipated that increased absorption will be observed when 99mTc MDP was entrapped in the Pheroid system. In the 99mTc MDP study, different routes of administration of 99mTc MDP, as well as 99mTc MDP entrapped and not entrapped in the Pheroid system, were investigated. The Sprague Dawley rat was used as animal model. Rats were divided into three groups of four rats each for the first part of the study. In the first group, only 99mTc MDP was injected intravenously in order to establish natural distribution of the 99mTc MDP. For the second group, 99mTc MDP was administered orally in order to establish whether there was any absorption through the intestinal tract. In the third group, the 99mTc MDP was entrapped in Pheroid vesicles and this formulation was administered orally in order to establish whether the Pheroid system enhanced oral absorption. The animals were sacrificed four hours after administration and organs were harvested and were counted for radioactivity to determine the percentage of injected/administrated dose in each organ. After oral administration, the Pheroid system was found to have facilitated absorption of 99mTc MDP through the intestinal tract into the blood. 99mTc MDP concentrations in the femur, although lower, were still comparable with that observed after intravenous administration of 99mTc MDP in the absence of Pheroid. Thus, overall, excellent absorption of the Pheroid entrapped 99mTc MDP through the intestinal tract was seen in contrast to little or zero absorption of the compound in the reference formulations. The half-life of the radio-labelled compound in the blood was prolonged after oral administration owing to the Pheroid. To investigate the bio-distribution of radioactive chloroquine (14C-CQ) Sprague Dawley rats were divided into two groups of four rats each. In the first group, 14C-CQ in deionised (DI) water was administered orally, and in the second group 14C-CQ entrapped in Pheroid vesicles was administered, also orally. The animals were sacrificed one, two and four hours after administration and subjected to comprehensive macroscopic inspection. All the organs were harvested and radioactivity was determined with liquid scintillation after applicable sample preparation. The Pheroid system produced much higher organ and blood concentrations of 14C-CQ and enhanced residence times within the organs and blood in comparison with that of 14C-CQ administered alone. Commercial applications of these results are possible, as a number of radiopharmaceutical products can presently be administered only intravenously. The added potential of these new Pheroid formulations could be of significance in the treatment of malaria, as chloroquine is inexpensive and widely available. Another point of interest is that the use of these formulations may enable micromolar drug concentrations to be achieved using drug dosage regimes that usually produce only nanomolar levels. However, safety aspects would have to be carefully monitored. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2015

Pheroid

14C-Chloroquine

Malaria

Radiotracers

Drug delivery

Radio-labelling as a tool to investigate the absorption and bio-distribution of selected antimalarial drugs / Abraham Johannes Swanepoel

Swanepoel, Abraham Johannes

January 2014

Previous studies have shown that the formulation of an active pharmaceutical ingredient (API) entrapped in the Pheroid® (Pheroid for simplification) delivery system enhances absorption of the API, suppresses its metabolism, and may contribute to an increase in the quantity of the API present at the site of action. Higher drug levels at the active site should particularly increase the effectiveness of a drug with a narrow therapeutic index and reduce the incidence of the resistance that may otherwise arise if the sub-therapeutic levels of the API are in contact with the site of interest. Two approaches were followed in this study. First, the radioactive tracer molecule 99mTechnetium methylene diphosphonate (99mTc MDP) was used. Intravenously injected 99mTc MDP is an extremely effective bone-seeking radiopharmaceutical used in the diagnosis of bone disorders such as bone metastases in patients. However, if entrapped inside a Pheroid vesicle, it will locate to that site, usually an organ, where the Pheroid vesicles may tend to accumulate. Experiments conducted with 99mTc MDP alone or with Pheroid will therefore establish how efficiently Pheroid vesicles localize and will also indicate the preferred site of localization inside a body. The process would involve the oral administration of 99mTc MDP either alone or with Pheroid, involving an animal model. It would also involve tracking localization to particular organs, blood or other sites. The second approach requires the use of chloroquine (CQ) labeled with carbon-14 (14C-CQ,) to compare absorption of the drug both with and without the Pheroid system. The intention was to compare oral absorption and bio-distribution of 14C-CQ administered either alone or entrapped in the Pheroid system. It was also possible to establish whether the Pheroid affects the biological half-lives of the CQ and residence times of CQ in the different organs of the body. Absorption of free 99mTc MDP (orally adminsistered) through the intestinal tract is negligible but it was anticipated that increased absorption will be observed when 99mTc MDP was entrapped in the Pheroid system. In the 99mTc MDP study, different routes of administration of 99mTc MDP, as well as 99mTc MDP entrapped and not entrapped in the Pheroid system, were investigated. The Sprague Dawley rat was used as animal model. Rats were divided into three groups of four rats each for the first part of the study. In the first group, only 99mTc MDP was injected intravenously in order to establish natural distribution of the 99mTc MDP. For the second group, 99mTc MDP was administered orally in order to establish whether there was any absorption through the intestinal tract. In the third group, the 99mTc MDP was entrapped in Pheroid vesicles and this formulation was administered orally in order to establish whether the Pheroid system enhanced oral absorption. The animals were sacrificed four hours after administration and organs were harvested and were counted for radioactivity to determine the percentage of injected/administrated dose in each organ. After oral administration, the Pheroid system was found to have facilitated absorption of 99mTc MDP through the intestinal tract into the blood. 99mTc MDP concentrations in the femur, although lower, were still comparable with that observed after intravenous administration of 99mTc MDP in the absence of Pheroid. Thus, overall, excellent absorption of the Pheroid entrapped 99mTc MDP through the intestinal tract was seen in contrast to little or zero absorption of the compound in the reference formulations. The half-life of the radio-labelled compound in the blood was prolonged after oral administration owing to the Pheroid. To investigate the bio-distribution of radioactive chloroquine (14C-CQ) Sprague Dawley rats were divided into two groups of four rats each. In the first group, 14C-CQ in deionised (DI) water was administered orally, and in the second group 14C-CQ entrapped in Pheroid vesicles was administered, also orally. The animals were sacrificed one, two and four hours after administration and subjected to comprehensive macroscopic inspection. All the organs were harvested and radioactivity was determined with liquid scintillation after applicable sample preparation. The Pheroid system produced much higher organ and blood concentrations of 14C-CQ and enhanced residence times within the organs and blood in comparison with that of 14C-CQ administered alone. Commercial applications of these results are possible, as a number of radiopharmaceutical products can presently be administered only intravenously. The added potential of these new Pheroid formulations could be of significance in the treatment of malaria, as chloroquine is inexpensive and widely available. Another point of interest is that the use of these formulations may enable micromolar drug concentrations to be achieved using drug dosage regimes that usually produce only nanomolar levels. However, safety aspects would have to be carefully monitored. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2015

Pheroid

14C-Chloroquine

Malaria

Radiotracers

Drug delivery

The relationship between the insecticide dichloro-diphenyl-trichloroethane and chloroquine in Plasmodium falciparum resistance

Makowa, Hazel Beverly

03 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Dichloro-diphenyl-trichloroethane (DDT) was extensively used in agriculture pest control and is still used for indoor residual spraying to control malaria. The lipophylicity of DDT and its breakdown product dichloro-diphenyl-dichloroethylene (DDE) dictates that they associate with membranes, lipids and hydrophobic proteins in the biological environment. Their poor degradable nature causes DDT and DDE to persist for decades in the environment and in individuals who are or were in contact with the pesticide. In many countries the synchronised resistance of the mosquito vector to insecticides and the malaria parasite towards antimalarial drugs led to a drastic rise in malaria cases and to malaria epidemics. This study assesses the influence of low level exposure of DDT and DDE on chloroquine (CQ) resistance of the dire human malaria parasite, Plasmodium falciparum. The in vitro activity of p,p’-DDT and p,p’-DDE towards blood stages of chloroquine sensitive (CQS) P. falciparum D10 and chloroquine resistant (CQR) P. falciparum Dd2 was determined using two complementary in vitro assays (Malstat and SYBR Green 1). The 50% inhibition concentrations (IC50s) of p,p’-DDT and p,p’-DDE were found to be ±14 to 38 μM (5-12 μg/mL) and highly similar towards CQS and CQR P. falciparum strains. This result indicated that the proteins involved in CQ resistance have no effect on the activity of the insecticide DDT and it breakdown product DDE. In order to assess the influence of DDT and DDE on CQ activity, in vitro fixed ratio drug combination assays were performed, as well as isobologram analysis. We found that CQ works in synergy with p,p’-DDT and p,p’-DDE against CQS P. falciparum D10. However, both p,p’-DDT and p,p’-DDE were antagonistic toward CQ activity in CQR P. falciparum Dd2. This indicated that p,p’-DDT and p,p’-DDE do have an effect on CQ resistance or on the action of CQ via a target other than hemozoin polymerization. The observation of reciprocal synergism of p,p’-DDT and p,p’-DDE with CQ against CQS D10 and antagonism against CQR Dd2 strain is highly significant and strongly indicates selection of CQ resistant strains in the presence of p,p’-DDT and p,p’-DDE. People who have low levels of circulating DDE and/or DDT could be at a high risk of contracting CQR malaria. However, medium term (nine days) DDE exposure of CQS P. falciparum D10 did not induce resistance, as no significant change in activity of CQ, p,p’-DDT and p,p’-DDE towards blood stages the CQS strain was observed. This exposure was, however, shorter than expected for a malaria infection and would be addressed in future studies. From our results on the interaction of CQ with p,p’-DDT and p,p’-DDE, it was important to assess the residual DDT and DDE variable and how much of residual p,p’-DDT and/or p,p’- DDE would enter into or remain in the different compartments (the RPMI media, erythrocytes and infected erythrocytes) over time. In combination with liquid-liquid extraction, we developed a sensitive GC-MS analyses method and a novel HPLC-UV analysis method for measuring DDT and DDE levels in malaria culturing blood and media. Whilst the HPLC-UV method was relatively cheaper, faster, and effective in determining high DDT and DDE concentrations, the optimised GC-MS method proved to be effective in detecting levels as low as 78 pg/mL (ppt) DDE and 7.8 ng/mL (ppb) DDT in biological media. Using both the HPLC and GC-MS methods we observed that malaria parasites influence distribution of the compounds between the erythrocytic and media fractions. P. falciparum D10 infection at ±10% parasitemia lead to must faster equilibration (less than 8 hours) between compartments. Equimolar distribution of p,p’-DDE was observed, but the parasites lead to trapping of the largest fraction of p,p’-DDT in the erythrocyte compartment. These results indicate that a substantial amount would reach the intra-erythrocytic parasite and could influence the parasite directly, possibly leading to either synergistic or antagonistic drug interactions. This study is the first to illustrate the “good and bad” of the insecticide DDT in terms of CQ resistance and sensitivity toward the human malaria parasite P. falciparum. These results will hopefully have an important influence on how future policies on malaria control and treatment particularly in endemic areas will be addressed and could also have an impact on the anti-malarial drug discovery approach. / AFRIKAANSE OPSOMMING: Dichlorodifenieltrichloroetaan (DDT) is op groot skaal in landbouplaagbeheer gebruik en word nog steeds gebruik vir binnenshuise oppervlakbespuiting om malaria te beheer. Die lipofilisiteit van DDT en sy afbraakproduk dichlorodifenieldichloroetileen (DDE) dikteer dat hulle met membrane, lipiede en hidrofobiese proteïene in die biologiese omgewing assosieer. Stadige afbraak veroorsaak dat DDT en DDE vir dekades in die omgewing agterbly, asook in individue wat in kontak is, of was met die insekdoder. In baie lande het gesinkroniseerde weerstand van die muskietvektor teenoor insekdoders en die malariaparasiet teenoor antimalariamiddels gelei tot 'n drastiese styging in malariagevalle en tot malariaepidemies. In hierdie studie word die invloed van lae vlak blootstelling van DDT en DDE op chlorokien (CQ) weerstand van die mens malariaparasiet, Plasmodium falciparum, geëvalueer. Die in vitro aktiwiteit van p,p'-DDT en p,p'-DDE teenoor die bloedstadia van chlorokiensensitiewe (CQS) P. falciparum D10 en chlorokien-weerstandbiedende (CQW) P. falciparum Dd2 is bepaal deur gebruik te maak van twee komplementêre in vitro toetse (Malstat en SYBR Groen toetse). Die 50% inhibisie konsentrasies (IC50s) van p,p'-DDT en p,p'-DDE is bepaal as ±14 to 38 μM (5-12 μg/mL) en was hoogs vergelykbaar tussen CQS en CQW P. falciparum stamme. Hierdie resultaat het aangedui dat die proteïene betrokke by CQ weerstand geen effek op die aktiwiteit van die insekdoder DDT en die afbraakproduk DDE het nie. Om die invloed van DDT en DDE op CQ aktiwiteit te evalueer, is die aktiwiteit van kombinasies van die verbindings in vaste verhoudings getoets, tesame met isobologram ontleding. Ons het gevind dat CQ sinergisties saam met p, p'-DDT en p, p'-DDE teen CQS P. falciparum D10 werk. Daarteenoor het beide p, p'-DDT en p, p'-DDE antagonistiese werking getoon teenoor CQ aktiwiteit met CQW P. falciparum Dd2 as teiken. Dit het aangedui dat p,p'-DDT en p, p'-DDE wel 'n invloed op CQ weerstand het of ‘n aktiwiteit van CQ, anders as hemozoin polimerisasie, beïnvloed. Die waarneming van resiproke sinergisme en antagonisme van p, p'-DDT en p, p'-DDE in kombinasie met CQ teenoor die CQS D10 en CQW DD2 stamme respektiewelik, is hoogs betekenisvol en dui op seleksie van CQweerstandige stamme in die teenwoordigheid van p, p'- DDT en p, p'-DDE. Mense wat lae vlakke van sirkulerende DDE/DDT het, het dus 'n hoër risiko om CQW malaria te kry. Verder is gevind dat medium termyn (nege dae) DDE blootstelling van CQS P. falciparum D10 nie weerstand nie veroorsaak nie, want geen beduidende verandering in die aktiwiteit van CQ, p,p'-DDT en p,p'-DDE teenoor die bloed stadiums van die CQS stam is waargeneem nie. Hierdie blootstelling is egter korter as in 'n malaria-infeksie en sal verder bestudeer word in toekomstige studies. Vanuit die interaksie resultate van CQ met p, p'-DDT en p, p'-DDE was dit belangrik om die residuele DDT en DDE veranderlike te evalueer, asook die distribusie van p,p'-DDT en p,p'- DDE tussen die verskillende kompartemente (die kultuurmedium, eritrosiete en geïnfekteerde rooibloedselle) oor verloop van tyd. In kombinasie met vloeistof-vloeistof ekstraksie, het ons 'n sensitiewe GC-MS en nuwe HPLC-UV analisemetode ontwikkel vir die meet van DDT en DDE-vlakke in bloed (normale en geïnfekteerde eritrosiete) en die kultuurmedium. Terwyl die HPLC-UV metode relatief goedkoper, vinniger en effektief in die bepaling van hoë DDT en DDE-konsentrasies is, was die geoptimaliseerde GC-MS metode doeltreffend in die opsporing van vlakke so laag as 78 pg/mL (dpt) DDE en 7.8 ng/mL (dpb) DDT in biologiese media. Met behulp van beide die HPLC-UV en GC-MS metodes is waargeneem dat die malariaparasiet die ekwilibrasie van die verbindings tussen die eritrosiet- en media kompartemente beïnvloed. P. falciparum D10 infeksie met ± 10% parasitemia lei tot vinniger ekwilibrasie (minder as 8 uur) tussen die kompartemente. Ekwimolêre verspreiding van p,p'- DDE is waargeneem, maar die parasiete het die grooste fraksie van p,p'-DDT in die eritrosiet kompartement vasgevang. Hierdie resultate wys dat 'n aansienlike fraksie die intraeritrositiese parasiet kan bereik en sodoende die parasiet direk kan beïnvloed en moontlik kan lei tot sinergistiese of antagonistiese middel interaksies. Hierdie studie is die eerste om die "goed en sleg" van die insekdoder DDT in terme van CQ weerstand en sensitiwiteit teenoor die menslike malariaparasiet P. falciparum te illustreer. Hierdie resultate sal hopelik 'n belangrike invloed hê op die toekomstige beleid oor die beheer van malaria en behandeling, veral in endemiese gebiede, en mag ook 'n impak hê op die antimalariamiddel navorsing.

Plasmodium falciparum

Chloroquine

Drug resistance

DDT (Insecticide)

Antimalarials

Dissertations -- Biochemistry

Theses -- Biochemistry

Department of Biochemistry

New 4-Aminoquinoline Compounds to Reverse Drug Resistance in <i>P. falciparum</i> Malaria, and a Survey of Early European Antimalarial Treatments

Liebman, Katherine May

11 December 2014

Intermittent fevers caused by Plasmodium parasites have been known for millennia, and have caused untold human suffering. Today, millions of people are afflicted by malaria each year, and hundreds of thousands die. Historically, the most successful synthetic antimalarial drug was chloroquine, as it was safe, inexpensive, and highly efficacious. However, plasmodial resistance to chloroquine now greatly limits its utility. Previously in our laboratories it has been shown that attachment of a "reversal agent moiety" to the side chain of chloroquine can result in the restoration of activity against chloroquine-resistant strains of P. falciparum malaria. In the first part of the work presented here, a study has been made of the importance of the quinoline ring substitution pattern to the activity of such reversed chloroquines. The compounds presented here include those bearing a substituent in the 2-, 5, 6-, 7-, and/or 8- position, and include those with chloro, bromo, iodo, fluoro, nitro, trifluoromethyl, methyl, and methoxy substituents. For reversed chloroquines, 2-, 5-, and 8- substituents have been found to decrease in vitro antiplasmodial activity against P. falciparum relative to 7-chloro substitution, whereas 6- and 7- substituted compounds with various substituents have in many cases similar activity to that of 7-chloro substituted compounds. Little difference has been observed between 6- and 7- substitution, or between chlorine and a methyl group in position 6. In most cases these effects on activity are directionally similar to those observed for chloroquine analogs without an attached reversal agent, but the magnitude of the effect is generally smaller, suggesting that the activities of reversed chloroquines are less affected by modifications to the quinoline ring system than is true for chloroquine analogs without an attached reversal agent. The second portion of this work presents an asymmetrical bis-quinoline (PL241) that is highly active against P. falciparum malaria, with an IC50 of less than 0.1 nM for all strains tested. Mechanistic studies have been performed in which the substitution patterns of the two quinoline rings of PL241 are modified in ways that indicate that either ring system is equally capable of participating in the antimalarial activity of these compounds. The excellent in vitro antiplasmodial activity of PL241 makes this a compound of great interest for further development as a potential antimalarial drug. In the third part of this work, a survey has been made of antimalarial treatments recommended in the European medical literature from the time of Pliny the Elder (active in the first century A.D.) through the advent of modern malaria chemotherapy in the early twentieth century. In the fifteen primary sources utilized in this study, 251 distinct substances - primarily plants - were identified as having likely been used in the treatment of malaria. Of the 38 substances that were described in three or more sources, at least fifteen have been examined by other workers for antiplasmodial activity; in many cases, they were found to have antiplasmodial activity in vitro or in vivo. However, the majority of the phytotherapies for malaria identified in this project have not yet been tested against Plasmodium species, and may provide valuable leads in the search for new compounds active against drug-resistant malaria.

Quinoline

Chloroquine

Plasmodium falciparum

Medicinal-Pharmaceutical Chemistry

Treatment-Induced Breast Cancer Dormancy and Relapse

Keim, Rebecca

01 January 2014

When breast tumor cells encounter stress due to cancer therapies, they may enter a dormant state, escaping from treatment-induced apoptosis. Dormant cells may eventually regain proliferative capabilities and cause recurrent metastatic disease, which is the leading cause of mortality in breast cancer patients. We sought to determine if a high dose of radiation therapy (RT) or combined chemo-immunotherapy, with and without the blockade of autophagy by chloroquine (CQ), could overcome treatment-induced tumor dormancy or relapse. We found that autophagy contributes in part to treatment-induced tumor dormancy. We also found that three therapeutic strategies were successful in inhibiting or preventing tumor relapse. These include: 18Gy/day RT, chemotherapy combined with the blockade of autophagy, and combined chemo-immunotherapy. Follow-up studies are needed to determine the feasibility of preventing tumor relapse by prolonging tumor dormancy versus eliminating dormant tumor cells.

breast cancer

tumor dormancy

tumor relapse

autophagy

radiation therapy

chemotherapy

immunotherapy

chloroquine

Medicine and Health Sciences

Modulação dos efeitos citotóxicos dos vemurafenibe pela cloroquina em células de melanoma maligno G-361: papel da dermicidina. / Modulation of cytotoxic effects of vemurafenib by chloroquine in malignant melanoma cells G-361: role of dermcidin.

Neyra, Jennifer Eliana Montoya

01 September 2017

Neste estudo foram avaliados os efeitos farmacológicos do vemurafenibe (inibidor BRAFV600E) e da cloroquina (inibidor de autofagia) na viabilidade celular e crescimento tumoral das sublinhagens de melanoma:G361 pLKO que expressa dermicidina e G361 IBC I com silenciamento da expressão. As células G-361 responderam a vemurafenibe (2 &#956;M) e cloroquina (100 &#956;M), isoladamente ou combinadas, com aumento apoptose, e redução das taxas de senescência. Vemurafenibe (50 mg/kg / 21 dias) inibiu o crescimento tumoral em camundongos imunodeficientes independente da expressão da DCD. A combinação com Cloroquina (30 mg/kg) a cada 24 horas, acelerou, enquanto a cada 72 horas, reduziu o crescimento tumoral. Os tumores apresentaram alterações morfológicas e núcleos atípicos; e não expressaram os marcadores S100, HMB-45, Mela-A ou citoqueratinas. Este trabalho confirmar a eficácia do vemurafenibe e sugere o potencial adjuvante da cloroquina no tratamento de melanomas. O estudo também confirma o papel da dermcidina como oncogne e fator de crescimento de células de melanoma maligno. / In this study we evaluated the pharmacological effects of vemurafenib ( inhibitor BRAFV600E) and chloroquine (autophagy inhibitor) in cell viability and tumor growth of two melanoma cell lines identified as G-361 pLKO, which expresses dermcidin, and G361 IBC I which silenced DCD expression. G-361 melanoma cells responded to vemurafenib (1-2 &#956;M) and chloroquine (50-100 &#956;M) alone or combined, with increased apoptosis rates, while decreasing senescent cells. Vemurafenib (50 mg/kg / 21 days) inhibited melanoma growth in immunodeficient mice independent of dermicidin. Chloroquine (30 mg/kg) in combination with vemurafenib, accelerated (at 24 hour interval), and reduced (at 72 hours interval), melanoma growth. Tumor tissues showed atypical cell morphology and nuclear histological patterns and melanocytic differentiation biomarkers S100, HMB-45, Melan-A or pancytokeratins were not. This work confirms the efficacy of vemurafenib and suggests potential adjuvant effect of chloroquine. It also confirms the role of dermcidin as growth factor and oncogene for melanoma cells.

Apoptosis

Autofagia

Autophagy

BRAF

BRAF

Chloroquine

Cloroquina

Dermcidin

Melanoma

Melanoma

Senescence

Senescência

Vemurafenib

Vemurafenibe

Interações de fármacos anti-malária com modelos de membrana / Interactions of Anti-malaria Drugs with Model Membranes

Basso, Luis Guilherme Mansor

16 February 2009

Primaquina e cloroquina são agentes antimaláricos amplamente utilizados profilática e terapeuticamente contra esta enfermidade. A interação destes fármacos com sistemas modelo podem fornecer informações úteis no entendimento dos mecanismos envolvidos em sistemas biológicos reais. Neste sentido, através das técnicas de calorimetria diferencial de varredura e ressonância paramagnética eletrônica, estudamos as interações entre os fármacos antimaláricos supracitados e modelos de membrana, no intuito de investigarmos as modificações provocadas por ambos na estrutura lipídica. Os resultados obtidos indicam que a associação da cloroquina com membranas de DMPC em pH fisiológico é limitada. Uma perturbação desta molécula na estrutura e dinâmica lipídica foi detectada apenas numa região próxima ao carbono sete das cadeias acila das fosfatidilcolinas. Os experimentos de DSC mostram que este fármaco tem efeito apenas na diminuição da cooperatividade da transição principal das membranas. Por outro lado, a redução da temperatura de transição de fase lipídica observada nos estudos calorimétricos demonstra que a primaquina promove uma desestabilização da fase gel. Os experimentos de RPE corroboram esse resultado, evidenciado pelo aumento da fluidez da membrana. Adicionalmente, o aumento do empacotamento provocado no centro da bicamada lipídica sugere penetração deste fármaco até esta região. Não foram observadas alterações da estrutura e dinâmica das cadeias lipídicas na fase fluida da membrana. Os resultados obtidos fornecem um melhor entendimento das interações fármacos-lipídios em um nível molecular, que podem ser aplicados no desenvolvimento de sistemas carreadores de ambos os fármacos. / Primaquine (PQ) and Chloroquine (CQ) are potent therapeutic agents used in the treatment of malaria. The investigation of drug-lipid interactions is pivotal for understanding their biological activity. Electron Spin Resonance (ESR) and Differential Scanning Calorimetry (DSC) were used to investigate the effects of drug binding on the lipid phase transition and acyl chain dynamics of model membranes made up of 1,2-Dimyristoyl-sn-Glycero-3-Phosphocholine (DMPC) phospholipids. Labels located at different positions along the lipid chain were used to monitor different membrane regions. ESR results indicated that PQ is more effective in changing the membrane structure than CQ. PQ is effective in perturbing the whole chain of DMPC vesicles, whereas the effect of CQ is more pronounced near the polar headgroup region. Furthermore, PQ causes a slight increase of the lipid packing close to the membrane center, suggesting a deeper insertion of this molecule into DMPC bilayers. DSC thermograms revealed that PQ interacts with DMPC decreasing the main transition temperature (TM) by ca. 2ºC and completely abolishing its pre-transition. On the other hand, CQ effects are mainly noticed as a decrease in the cooperativity of the main transition. Because of its lipophilic character, PQ penetrates into the bilayer hydrocarbon region causing considerable disorganization. Electrostatic interaction between CQ and the phosphatidylcholine phosphate groups is probably related with its low membrane permeability. These results shed light on the molecular mechanism of druglipid interaction, which may be useful for the development of lipid drug delivery systems of antimalarial drugs.

chloroquine

cloroquina

drugs-membrane interaction

DSC

DSC

ESR

Interação drogas-membrana

primaquina

primaquine

RPE

Mecanismos de resistência à cloroquina em células de glioma humano e o uso de neurônios humanos derivados de células-tronco pluripotentes induzidas como modelo de estudo da síndrome de Cockayne. / Mechanisms of resistance to chloroquine-induced toxicity in human glioma cells, and the use of induced pluripotent stem cells-derived human neurons as a model to study Cockayne syndrome.

Vessoni, Alexandre Teixeira

24 July 2015

O funcionamento pleno e harmônico de uma célula está intimamente associado à sua capacidade de manter a integridade genômica. Diversos agentes químicos e físicos exógenos, bem como produtos do próprio metabolismo celular, podem interagir com o DNA, causando danos a esta molécula. Em respota a esses eventos, um intrincado mecanismo de resposta a danos ao DNA é ativado, podendo culminar tanto na correção das lesões, como na ativação de programas de morte celular, como a apoptose, sempre com o intuito de preservar a homeostase tecidual. Falhas neste mecanismo estão associadas a um aumento nas taxas de mutação, que apesar de constituírem a base da diversidade genética e evolução das espécies, está intimimamente associado à tumorigênese e ao envelhecimento. Neste trabalho, dividido em duas partes, utilizamos células de glioma humano como modelo de estudo para quimioterapia adjuvante, bem como também utilizamos neurônios humanos obtidos à partir de células-tronco pluripotente-induzidas como modelo de estudo para a neurodegeneração característica da síndrome de Cockayne, uma doença genética na qual os pacientes apresentam deficiências em mecanismos de reparo de DNA, bem como envelhecimento precoce. Na primeira etapa, avaliamos a resposta de células de glioma a cloroquina, um promissor adjuvante no tratamento desta enfermidade, e notamos que a resistência das células a esta droga estava intimamente relacionada ao seu potencial de membrana mitocondrial, o qual podia ser desfeito por meio da inibição da quinase ATR. Apesar da função canônica desta proteína se dar através da regência da resposta a danos ao DNA, notamos que a sua participação como agente promotor de resistência à cloroquina se dava independentemente deste mecanismo. Também notamos que a combinação da cloroquina com a inibição de ATR via silenciamento gênico exercia um potente efeito tóxico sobre as células tumorais tratadas com o quimioterápico Temozolomida. Já na etapa final desta tese, através do emprego da reprogramação celular, obtivemos, pela primeira vez, neurônios humanos de pacientes portadores da síndrome de Cockayne a partir de fibroblastos de pele. Com este modelo de estudo, foi possível observar que esses neurônios apresentavam uma reduzida densidade de puncta sináptica, bem como uma aparente deficiência na sincronia de suas atividades. Por fim, por meio do sequenciamento do RNA destes neurônios, identificamos uma desregulação na expressão de diversas vias relacionadas ao funcionamento e comunicação neural. As implicações para o uso da cloroquina como adjuvante no tratamento de gliomas, bem como as vantagens do uso de neurônios humanos de Cockayne em detrimento aos modelos atualmente disponíveis, também são discutidos. / Genome integrity is constantly threatened by chemical and physical exogenous agents, as well as products of cells own metabolism, and capability of cells to overcome these challenges is essential to achieve homeostasis. In response to DNA lesions, cells activate a dynamic and intricate DNA damage response that ultimately results either in lesion resolution, or in cell death through apoptosis. Regardless the fate chosen, tissue homeostasis is the ultimate goal. Flaws in this mechanism are associated to an increase in mutation rates. Although it constitutes the basis of genetic diversity and evolution, it is also strictly associated to tumorigenesis and aging. In this thesis, separated in two chapters, we used human glioma cells as a model to study adjuvant chemotherapy, and induced pluripotent stem cells-derived human neurons as a model to study neurodegeneration in Cockayne syndrome, a genetic disease in which patients display defects in DNA repair mechanisms, and also premature aging. In the first chapter, we investigated the response of cancer cells to chloroquine, a promising adjuvant drug in glioma therapy, and we noticed that cellsresistance to this drug was strictly associated to its mitochondrial membrane potential values, which could be dismantled through ATR inhibition. Interestingly, we noticed that the ability of ATR to promote resistance of glioma cells to chloroquine was independent of its canonical role in the DNA damage response. We also noticed that combined treatment of chloroquine to ATR inhibition through gene silencing exerted a powerful toxic effect on glioma cells treated with the chemotherapeutic Temozolomide. In the second chapter of this thesis, we employed cell reprogramming technique to obtain, for the first time, human neurons from Cockayen Syndrome patients from skin fibroblasts. With this model, we were able to identify a reduced density of synaptic puncta, as well as reduced synchrony in the activity of the patients neurons. Through RNA sequencing, we noticed several pathways related to synapses and neuronal function deregulated in Cockayne Sydrome patients neurons. Implications for the use of chloroquine as an adjuvant drug in glioma therapy, as well as the advantage of using iduced pluripotent stem cells-derived Cockayne syndrome human neurons (instead of currently available models) to study this disease, are also discussed.

Células-tronco

Chloroquine

Cloroquina

Cockayne Syndrome

Glioma

Glioma

Neurodegeneração

Neurodegeneration

Síndrome de Cockayne

Stem cells

Dissecting the molecular basis of PfCRT-mediated antimalarial drug resistance

Gabryszewski, Stanislaw J.

January 2016

The protozoan parasite Plasmodium falciparum is responsible for the deadliest form of malaria, which causes 584,000 fatalities annually and whose complications include coma, anemia, respiratory distress, and renal failure. Although malaria eradication efforts were hindered by the rise of chloroquine (CQ) resistance (CQR), CQ continues to be clinically deployed in resistance-free regions. CQR is primarily mediated by mutations in the P. falciparum chloroquine resistance transporter (pfcrt) gene, which also modulates parasite susceptibility to first-line artemisinin-based combination therapies (ACTs). In certain geographical regions (e.g. Africa), mutant pfcrt alleles display considerable fitness costs and have undergone attrition in the absence of CQ pressure. Surveillance of resistant field isolates presently centers on the PfCRT mutation K76T, ubiquitous among CQ-resistant parasites and always accompanied by ≥3 additional mutations. Despite the global adoption of K76T as a molecular marker of CQR, the contributions of this and other mutations to P. falciparum drug resistance versus fitness had not been previously defined. AIMS: We aimed to address the following: (1) Do PfCRT mutations beyond PfCRT K76T directly contribute to CQR? (2) Do PfCRT mutations contribute to parasite fitness during the pathogenic asexual blood stage? (3) Are there predictable mutational paths in the evolution of pfcrt-mediated drug resistance? (4) How do PfCRT mutations impact current antimalarials, including the first-line ACTs? APPROACH: Using zinc finger nucleases, we generated isogenic, pfcrt-modified blood-stage P. falciparum parasites encoding wild-type (CQ-sensitive) or variant PfCRT haplotypes. Variants included a combinatorial library of alleles harboring 1-4 mutations comprising the simplest CQ-resistant haplotype (Ecu1110). Additional genetic dissections of full-length or partial pfcrt alleles encompassed the most common variants found in Africa and Asia, including a unique fitness-neutral mutant allele (Cam734) that has undergone expansion in Southeast Asia. Parasite antimalarial drug susceptibility was determined using IC50-based (cytostatic) assays or parasite survival-based (cytocidal) assays and was combined with data from flow cytometric parasite growth competition assays to computationally model mutant pfcrt evolution. To further define the biochemical impacts of PfCRT mutations, our studies leveraged metabolomic, heme fractionation, and drug transport studies. RESULTS: Key findings emerging from our studies included the following: (1) PfCRT K76T is insufficient for CQR and an inaccessible first mutational step in pfcrt evolution; (2) Alongside proliferation rates, parasite resistance gains dictate a constrained pfcrt mutational landscape and predict important roles for the active metabolites of CQ and amodiaquine in guiding pfcrt evolution; (3) To various degrees, PfCRT polymorphisms beyond K76T increase the potency of both the artemisinin and partner drug components of first-line ACT regimens; (4) Emerging PfCRT mutations (e.g. A144F) directly contribute to the enhanced fitness of pfcrt alleles and are necessary for multidrug resistance, independent of K76T. CONCLUSIONS: Our studies uncovered multiple pleiotropic contributions of PfCRT mutations to antimalarial drug resistance, countering earlier dogma that non-K76T mutations are merely compensatory. Evolutionary modeling revealed parasites’ ability to navigate constrained mutational landscapes and evolve drug resistance via rare mutational bursts. These results collectively highlight the capacity of PfCRT to acquire novel mutations that successfully balance parasite multidrug resistance with the essential role of PfCRT in maintaining digestive vacuole physiology. Our studies are of direct relevance to the regional recommendations of antimalarials, whose activity is influenced by, and in certain cases enhanced against, pfcrt-mutant parasites.

Drug resistance

Chloroquine

Medical sciences

Plasmodium falciparum

Microbiology

Molecular biology

Parasitology

Modulação dos efeitos citotóxicos dos vemurafenibe pela cloroquina em células de melanoma maligno G-361: papel da dermicidina. / Modulation of cytotoxic effects of vemurafenib by chloroquine in malignant melanoma cells G-361: role of dermcidin.

Jennifer Eliana Montoya Neyra

01 September 2017

Neste estudo foram avaliados os efeitos farmacológicos do vemurafenibe (inibidor BRAFV600E) e da cloroquina (inibidor de autofagia) na viabilidade celular e crescimento tumoral das sublinhagens de melanoma:G361 pLKO que expressa dermicidina e G361 IBC I com silenciamento da expressão. As células G-361 responderam a vemurafenibe (2 &#956;M) e cloroquina (100 &#956;M), isoladamente ou combinadas, com aumento apoptose, e redução das taxas de senescência. Vemurafenibe (50 mg/kg / 21 dias) inibiu o crescimento tumoral em camundongos imunodeficientes independente da expressão da DCD. A combinação com Cloroquina (30 mg/kg) a cada 24 horas, acelerou, enquanto a cada 72 horas, reduziu o crescimento tumoral. Os tumores apresentaram alterações morfológicas e núcleos atípicos; e não expressaram os marcadores S100, HMB-45, Mela-A ou citoqueratinas. Este trabalho confirmar a eficácia do vemurafenibe e sugere o potencial adjuvante da cloroquina no tratamento de melanomas. O estudo também confirma o papel da dermcidina como oncogne e fator de crescimento de células de melanoma maligno. / In this study we evaluated the pharmacological effects of vemurafenib ( inhibitor BRAFV600E) and chloroquine (autophagy inhibitor) in cell viability and tumor growth of two melanoma cell lines identified as G-361 pLKO, which expresses dermcidin, and G361 IBC I which silenced DCD expression. G-361 melanoma cells responded to vemurafenib (1-2 &#956;M) and chloroquine (50-100 &#956;M) alone or combined, with increased apoptosis rates, while decreasing senescent cells. Vemurafenib (50 mg/kg / 21 days) inhibited melanoma growth in immunodeficient mice independent of dermicidin. Chloroquine (30 mg/kg) in combination with vemurafenib, accelerated (at 24 hour interval), and reduced (at 72 hours interval), melanoma growth. Tumor tissues showed atypical cell morphology and nuclear histological patterns and melanocytic differentiation biomarkers S100, HMB-45, Melan-A or pancytokeratins were not. This work confirms the efficacy of vemurafenib and suggests potential adjuvant effect of chloroquine. It also confirms the role of dermcidin as growth factor and oncogene for melanoma cells.

Autofagia

BRAF

Cloroquina

Melanoma

Senescência

Vemurafenibe

Apoptosis

Autophagy

BRAF

Chloroquine

Dermcidin

Melanoma

Senescence

Vemurafenib