Avaliação do uso oral da droga vegetal de Curcuma longa L. no tratamento da nefropatia induzida por doxorrubicina em um modelo animal / Evaluation of oral powdered dried rhizomes of Curcuma longa L. in the treatment of doxorubicin-induced kidney injury in an animal model

Russo, Enzo Ricardo

05 April 2017

Introdução: A curcumina é um polifenol presente no rizoma da espécie Curcuma longa L. que tem sido usado há séculos como medicamento anti-inflamatório na medicina asiática. A síndrome nefrótica é classicamente tratada com corticosteroides, uma potente classe antiinflamatória e imunossupressora. O tratamento pode trazer sérios efeitos adversos. Objetivos: Este estudo foi desenhado para avaliar o efeito anti-inflamatório e antiproteinúrico da C. longa na forma de droga vegetal, na lesão renal induzida pela doxorrubicina. Desenho do estudo: Trata-se de um estudo experimental in vivo. Métodos: O efeito anti-inflamatório e anti-proteinúrico da C. longa foi avaliado utilizando-se 4 grupos de ratos Wistar: dois grupos com lesão renal induzida por doxorrubicina (3,5 mg/kg) em dose única endovenosa, sendo um alimentando-se de ração padrão e outro com ração misturada a C. longa (5 mg/g de ração). Outros dois grupos controles sem lesão renal foram alimentados, sendo um com ração padrão e outro com C. longa. Foram coletadas amostras de urina para dosagem de albuminúria a cada 2 semanas. Após 8 semanas os animais foram anestesiados e coletado sangue para dosagem no plasma de creatinina, albumina, sódio, potássio, colesterol e osmolalidade. Nas amostras de urina foram dosados albuminúria, sódio, potássio, osmolalidade e os mediadores inflamatórios proteína quimiotática para monócitos-1 e fator de transformação do crescimento beta urinário. Foi coletado tecido renal para realização de microscopia de luz e de imuno-histoquímica para desmina, vimentina e células ED-1 positivas. Resultados: Após a 8a semana de acompanhamento, o tratamento com C. longa atenuou o aumento do MCP-1 urinário, do TGF-? urinário, da imunomarcação para desmina, vimentina e células ED-1+ nos ratos com lesão renal induzida. Conclusão: Os resultados sugerem que o uso de C. longa em um modelo experimental de lesão renal por doxorrubicina, por 8 semanas, não reduz a albuminúria, mas leva a diminuição dos mediadores inflamatórios renais MCP-1 e TGF-? urinário, além de imunomarcação para desmina, vimentina e células ED-1+ no tecido renal. / Background: Curcumin is a polyphenol present in the rhizome of the species Curcuma longa L., which has been used for centuries as an anti-inflammatory remedy in Asian medicine. Nephrotic syndrome is classically treated with corticosteroids, a potent antiinflammatory and immunosuppressive class. The treatment can cause serious adverse effects. Objectives: This study was designed to evaluate the anti-inflammatory and antiproteinuric effects of C. longa, as powdered dried rhizomes, in renal injury induced by doxorubicin. Study design: This is an in vivo experimental study. Methods: The antiinflammatory and anti-proteinuric effects of C. longa were evaluated in four groups of Wistar rats: two groups with intravenous doxorubicin-induced kidney injury (3.5 mg/kg), one fed with standard food and another with standard food mixed with C. longa (5 mg/g food). Two other control groups without kidney injury were fed, one with standard and one with C. longa-mixed food. Urine samples were collected for albuminuria every 2 weeks. After 8 weeks, the animals were anesthetized and blood was collected for measurement of plasma creatinine, albumin, sodium, potassium, cholesterol and osmolality. In the urine samples, measurements of albuminuria, sodium, potassium, osmolality and inflammatory mediators as monocyte chemoattractant protein-1 and transforming growth factor beta were done. Renal tissue was collected for light microscopy and immunohistochemistry for desmin, vimentin and ED-1 positive cells. Results: After the 8th week of follow-up, treatment with C. longa attenuated the increase of urinary MCP-1, urinary TGF-?, and immunostaining for desmin, vimentin and ED-1+ cells in rats with doxorubicin-induced kidney injury. Conclusion: The results suggest that the use of C. longa in an experimental model of nephrotic syndrome for 8 weeks does not reduce albuminuria, but there is a decrease in the inflammatory mediators urinary MCP- 1, urinary TGF-?, and immunostaining for desmin, vimentin and ED-1+ cells.

Animal model

Curcuma longa L.

Curcuma longa L.

Doxorrubicina

Doxorubicin

Fitoterapia

Herbal medicine

Inflamação

Inflammation

Modelo animal

Nephrotic syndrome

Síndrome nefrótica

Doxorrubicina e ifosfamida em dose densa em pacientes com sarcomas de partes moles e expressão de ezrina como fator de prognóstico / Doxorrubicina e ifosfamida em dose densa em pacientes com sarcomas de partes moles e expressão de ezrina como fator de prognóstico

Almeida, Gustavo Fernandes Godoy

07 May 2010

O prognóstico de pacientes portadores de sarcomas de partes moles (SPM) avançados é reservado. Aumentar o benefício de quimioterapia é necessário, sendo, uma das estratégias, quimioterapia em dose densa, a qual demonstrou benefício em câncer de mama. Por outro lado, a busca de um marcador prognóstico é importante para uma melhor seleção de pacientes que se beneficiariam de protocolo de tratamento mais intensivo. A ezrina é uma proteína que liga o citoesqueleto celular a proteínas de membrana, está associada a invasão celular e metástase e sua hiperexpressão tem sido associada a um pior prognóstico em sarcomas de partes moles. O objetivo deste estudo foi avaliar o papel de quimioterapia com dose densa em pacientes portadores de SPM de alto grau, avançados. O desfecho primário foi taxa de resposta e os secundários foram sobrevida global (SG), sobrevida livre de progressão (SLP), perfil de toxicidade, qualidade de vida e controle de dor. Avaliou-se também a expressão de ezrina por imunohistoquímica como marcador de prognóstico, com o intuito de estratificação da população que poderia se beneficiar mais desta abordagem intensificada. Neste estudo de fase II prospectivo, vinte e um pacientes foram incluídos. A idade mediana foi 37 anos (23-60) e extremidades inferiores foram o sítio primário mais comum. Sarcoma sinovial, leiomiossarcoma e sarcoma sem outras especificações foram as histologias mais frequentes. O protocolo consistiu de seis ciclos seqüenciais de doxorubicina 30mg/m2 D1-3 e ifosfamida 2,5g/m2 D1-5 a cada 14 e 21 dias, respectivamente, seguidos por sete dias de suporte hematopoiético. As intensidades de dose medianas de doxorrubicina e ifosfamida foram, respectivamente, 42mg/m2/semana e 3,63g/m2/semana (93% e 87% do planejado, respectivamente) e 15 pacientes (71%) receberam todo o tratamento. Toxicidades graus 3 e 4 foram observadas em 19 pacientes e em 77/105 ciclos, neutropenia febril em 6 ciclos (5 pacientes) e reduções da fração de ejeção de ventrículo esquerdo de pelo menos 10% em três pacientes. Não houve toxicidade renal provavelmente pela adminsitração da ifosfamida em duas horas. A resposta foi avaliada pelos critérios de RECIST, com três respostas parciais, totalizando uma taxa de resposta de 14%. Seis respostas deveriam ser observadas para que o estudo completasse a inclusão de todos os pacientes programados. Como não se atingiu a taxa de resposta prevista, o protocolo foi fechado. Três mortes precoces foram observadas com suspeita de toxicidade. Após seguimento mediano de 11 meses, a SLP e a SG medianas foram 8,1 e 20,1 meses respectivamente. Pacientes com sarcoma sinovial e idade inferior a 45 anos apresentaram maior sobrevida na análise univariada. A expresão de ezrina foi positiva em 10 pacientes (47%) e houve tendência a uma correlação direta entre sua expressão e sobrevida mais longa (p=0,1191). Todos os pacientes com histologia sinovial foram positivos para ezrina (teste de Fischer, p= 0,0325). Este esquema de quimioterapia sequencial com dose densa de doxorubicina e ifosfamida foi tóxico, a taxa de resposta foi baixa em um grupo de pacientes com doença avançada e não pode ser empregado na prática clínica diária fora de protocolo de pesquisa / Advanced soft tissue sarcoma (STS) patients have a dismal prognosis. Efforts to increase benefit from chemotherapy are needed and dose-dense chemotherapy could be an option, since this approach has demonstrated survival benefit in breast cancer. On the other hand, the identification of a prognostic marker is essential to stratify which patients could benefit most from intensified strategies. Ezrin is a member of the ERM (ezrin, radixin, moesin) cytoeskeleton-associated protein family associated with invasion and metastasis, and has been pointed as important prognostic marker in sarcomas. The objective of this study was to explore the role of dose-dense doxorubicin- and ifosfamide-based chemotherapy in advanced high grade STS patients. Primary endpoint was response rate and secondary endpoints were overall survival (OS), progression free survival (PFS), toxicity profile, quality of life and pain control evaluation. Tumor ezrin immunoreactivity was an exploratory endpoint as a predictor of response to chemotherapy and as a prognostic factor in this population, trying to find which patients could benefit most from this intensified strategy. This prospective, single arm, phase II study included 21 advanced STS patients. Median age was 37 years (23-60y) and lower limbs were the most frequent primary site. Synovial, leiomyo and unclassified sarcoma were the most common histologies. Protocol consisted of 6 cycles of sequential dose-dense doxorubicin 30 mg/m2 D1-3 and ifosfamide 2.5 g/m2 D1-5 every 14 and 21 days, respectively, followed by seven days of hematopoietic support. The median doxorubicin and ifosfamide dose-intensities were, respectively, 42 mg/m2/week and 3.63 g/m2/week (93% and 87% of planned, respectively) and 15 patients (71%) received all cycles. Grade 3/4 toxicities occurred in 19 patients and 77/105 cycles, febrile neutropenia in 5 patients (six cycles) and three LVEF drops of at least 10%, one symptomatic. No renal toxicity was observed what could occurred due to the two-hour-schedule of ifosfamide. Responses were evaluated by RECIST criteria and three patients presented partial response (response rate of 14%). Six responses were necessary to the inclusion of the target population, however, this was not observed and the study was closed. Three deaths were probably related to toxicity. After a median follow-up was 11 months, PFS and OS were 8.1 months and 20.1 months, respectively. Patients with synovial sarcoma and those younger than 45y presented better survival at univariate analysis. Ezrin expression was positive in 10 patients (47%) and a trend was observed for a correlation between positive ezrin expression and longer survival (p= 0.1191). There was a statistically significant correlation between positive ezrin expression and synovial hystology (Fishers exact test, p= 0.0325). This sequential dosedense doxorubicin/ifosfamide-based chemotherapy protocol was toxic, response rate was low in advanced STS patients and can not be considered for routine practice outside clinical trials

Dose-response relationship drug

Doxorrubicina

Doxorubicin

Ifosfamida

Ifosfamide

Immunohistochemistry

Imunoistoquímica

Relação dose-resposta a droga

Sarcoma

Sarcoma de partesmoles

Sobrevida

Survivorship (Public Health)

Targeted release from lyso-thermosensitive liposomal doxorubicin (ThermoDox®) using focused ultrasound in patients with liver tumours

Lyon, P. C.

January 2016

No description available.

610.28

Expressão de PRSS11, MTSS1, CLPTM1, SMYD2, NOTCH1 e RPL37A em fatias de carcinoma de mama de cadelas e correlação com resposta à doxorrubicina in vitro / Expression of PRSS11, MTSS1, CLPTM1, SMYD2, NOTCH1 and RPL37A in slices of bitch mammary cancer and correlation with response to exposure doxorubicin in vitro

Renata Afonso Sobral

08 December 2006

Os tumores da glândula mamária constituem as neoplasias mais freqüentes em cadelas e a doxorrubicina é uma das principais drogas quimioterápicas utilizadas no tratamento deste tipo de câncer. A quimioterapia neoadjuvante com doxorrubicina possibilita a redução do tumor e permite a avaliação da resposta ao tratamento quimioterápico in vivo. A procura por marcadores preditivos de resposta tem o objetivo de identificar as pacientes responsivas e não responsivas ao tratamento com o quimioterápico de modo a permitir a indicação de uma abordagem terapêutica específica para cada paciente. A expressão de alguns trios de genes, incluindo PRSS11, MTSS1 e CLPTM1 e, PRSS11, MTSS1 e SMYD2 em mulheres com câncer de mama que receberam tratamento neoadjuvante com doxorrubicina permitiu a classificação das pacientes em sensíveis e resistentes ao tratamento. Outros genes diferencialmente expressos entre amostras consideradas sensíveis e resistentes à doxorrubicina foram NOTCH1 e RPL37A. Avaliamos no presente trabalho se a expressão de trios de genes permitia a classificação de resposta ao tratamento quimioterápico em outro modelo, constituído por carcinoma de mama de cadela, mantido em cultura de tecido na forma de fatias e exposto à doxorrubicina in vitro. A cultura de fatias de tecidos permite a manutenção da interação epitélio-mesênquima e é considerado um modelo mais próximo ao observado in vivo. Foram obtidas amostras de tumor mamário de 38 pacientes caninas atendidas no Hospital Veterinário da Faculdade de Medicina Veterinária da Universidade Metodista de São Paulo (UMESP), em São Bernardo do Campo, durante a cirurgia de mastectomia. Os proprietários deram seu consentimento livre e esclarecido para a realização do estudo. A idade mediana das pacientes foi de 10,4 anos e, 55% e 18,4% destas pacientes eram animais sem raça definida (SRD) e da raça poodle, respectivamente. Oito pacientes haviam sido submetidas previamente à cirurgia de esterilização. As pacientes apresentaram-se em estadio clínico III (39,47%), II (28,9%), I (18,4%) e IV (metástase pulmonar) (13,1%). Os carcinomas foram classificados como de arranjo cístico-papilífero (34,2%), tubular (34,2%), túbulo-papilífero (18,42%) e sólido (10,52%). Os tumores foram fatiados e cultivados na ausência e presença de doxorrubicina (1 uM) por 24 horas e, para avaliação da resposta após o tratamento, procedeu-se à contagem do número de células nas amostras tratadas e não tratadas. O tratamento com doxorrubicina promoveu uma redução média do número de células de 13,6% e, nove amostras foram consideradas responsivas, enquanto 29 não responderam ao tratamento. Amostras de tumor mantidas em cultura na ausência de doxorrubicina tiveram seu RNA extraído para determinação da expressão dos genes alvo por meio de reação de transcrição reversa e da polimerase em cadeia do DNA em tempo real. A distribuição tridimensional das amostras, baseada na expressão dos trios de genes, não permitiu a classificação das amostras em responsivas e não responsivas. Logo, a combinação da expressão de três genes alvos, incluindo PRSS11, MTSS1, CLPTM1, SMYD2, NOTCH1 e RPL37A, não separou adequadamente os tumores responsivos e não responsivos neste modelo de carcinoma mamário canino, tratado in vitro com doxorrubicina. / Mammary gland tumors are the most common neoplasias of bitches and doxorubicin is one the mainstay drugs used in their treatment. Neoadjuvant chemotherapy with doxorubicin not only reduces the primary tumor as well as allows an in vivo evaluation of tumor response. Predictive markers of response, if identified, might allow a tailored treatment of each patient. In women with breast cancer submitted to neoadjuvant chemotherapy with doxorubicin, expression of groups of three genes, including PRSS11, MTSS1 and CLPTM1 and PRSS11, MTSS1 and SMYD2, classified the patients in responsive and resistant. Other genes differentially expressed between responsive and non-responsive tumors were NOTCH1 and RPL37A. We have then evaluated whether the expression of trios of these genes could allow the classification of tumors according to their response to chemotherapy, in another animal model constituted by mammary carcinoma of bitches, cultured as tissue slices and exposed to doxorrubicin in vitro. Culture of tissue slices preserves epithelial-mesenchymal interactions, in a similar way to that observed in vivo. Tumor samples were obtained from 38 canine patients treated at Hospital Veterinaria da Faculdade de Medicina Veterinária da Universidade Metodista de São Paulo (UMESP), São Bernardo do Campo, during mastectomy. Animal owners gave their informed consent to this study. Median age of patients was 10,4 years and 55% and 18,4% of them were mixed and poodle breed, respectively. Eight patients were previously spayed. Patients were classified in clinical stage III (39,47%), II (28,9%), I (18,4%) and IV (pulmonary metastasis only) (13,1%). Carcinomas were classified as cystic-papillary (34,2%), tubular (34,2%), tubular-papillary (18,42%) and solid (10,52%). Tumors were sliced and cultured in the absence or in the presence of doxorubicin (1 uM) for 24 hours and response evaluation was performed by cell counting of treated and untreated samples. Doxrubicin exposure promoted a mean reduction of 13,6% in the number and nine samples were considered responsive and 29 non-responsive. RNA was extracted from samples maintained in culture without doxorubicin and expression of target genes was evaluated by reverse transcription and real time polimerase chain reactions. Three-dimensional distribution of samples according to expression of groups of three genes could not separate responsive from non-responsive tumors. NOTCH1 and RPL37A expression was similar between responsive and resistant tumors but NOTCH1 was over expressed in poorly differentiated as compared to well differentiated carcinomas. Hence, expression of combination of three target genes, including, PRSS11, MTSS1, CLPTM1, SMYD2, NOTCH1 and RPL37A, could not correctly separate responsive from non-responsive tumors in this model of mammary carcinoma of canine species treated in vitro with doxorubicin.

Cães

Doxorrubicina

Expressão gênica

Neoplasias mamárias animais

Valor preditivo dos testes

Animal mammary neoplasms

Dogs

Doxorubicin

Gene expression

Predictive value of tests

Uticaj žučnih kiselina na prodor u ćelije i tkiva i farmakodinamiku doksorubicina / The influence of bile acids on cell and tissue penetration and pharmacodynamics of doxorubicin

Stanimirov Bojan

26 March 2018

<p>Zahvaljujući amfifilnoj strukturi i mogućnosti građenja konjugata, žučne kiseline - endogeno sintetisani produkti katabolizma holesterola su prepoznate kao potencijalni nosači lekova i promoteri transporta kroz biolo&scaron;ke membrane. Otkriće da aktivacijom specifičnih nuklearnih receptora reguli&scaron;u ekspresiju gena uključenih u plejadu signalnih puteva uključenih u metabolizam, proliferaciju i diferencijaciju ćelija i onkogenezu, pro&scaron;irilo je ulogu žučnih kiselina u odnosu na inicijalno opisanu ulogu intestinalnih emulgatora. Žučne kiseline se danas ne smatraju samo pasivnim nosačima lekova i promoterima transporta kroz biolo&scaron;ke membrane već i molekulima sa farmakodinamskom funkcijom, koji reguli&scaron;u različite aspekte integrativnog ćelijskog metabolizma. Doksorubicin je jedan od najče&scaron;će kori&scaron;ćenih antineoplastičkih agenasa i sastavna je komponenta mnogih hemoterapijskih protokola u lečenju solidnih i hematolo&scaron;kih maligniteta. Međutim, hepatotoksični i kardiotoksični efekti značajno ograničavaju upotrebu ovog, inače veoma korisnog antitumorskog agensa. Pojava odložene dozno-zavisne kardiotoksičnosti predstavlja značajan zdravstveni problem onkolo&scaron;kih pacijenata sa uspe&scaron;no lečenim malignitetom, naročito pacijenata lečenih u pedijatrijskom uzrastu. Budući da je razvoj novih lekova veoma dug i skup proces sa neizvesnim ishodom, pobolj&scaron;anje farmakodinamskih i farmakokinetskih svojstava već postojećih antitumorskih agenasa sa dokazanom efikasno&scaron;ću, uz smanjenje toksičnih efekata, predstavlja racionalan istraživački pristup u savremenoj medicini. Osnovni cilj ovog rada je ispitivanje uticaja žučnih kiselina ursodeoksiholne, henodeoksiholne i 12-okso-henodeoksiholne kiseline (12-monoketoholne kiseline) na citotoksičnu aktivnost doksorubicina prema MCF-7 ćelijskoj liniji humanog adenokarcinoma dojke i ispitivanje molekularnih mehanizama odgovornih za farmakodinamske efekte. Takođe su navedene žučne kiseline ispitane kao promoteri transporta koji utiči na prodor i kumulaciju doksorubicina u malignim ćelijama. U ovom radu je ispitan uticaj koadministracije navedenih žučnih kiselina sa doksorubicinom na odložene toksodinamske efekte (hepatotoksičnost i kardiotoksičnost) kod pacova, ali i efekti pretretmana žučnim kiselinama na koncentracije doksorubicina u krvi, bilijarnu ekskreciju leka kao i kumulaciju u jetri i miokardu eksperimentalnih životinja. Žučne kiseline su u netoksičnim koncentracijama potencirale in vitro citotoksične efekte doksorubicina na MCF-7 ćelijskoj liniji pri čemu je henodeoksiholna ispoljila sinergistički efekt, dok su ursodeoksiholna u 12-monoketoholna ispoljile aditivni citotoksični efekt sa doksorubicinom. Ispitivanjem molekularnih mehanizama citotoksičnih efekata utvrđeno je da su žučne kiseline u različitom stepenu potencirale apoptozu ćelija mitohondrijalnim putem uticajem na ekspresiju pro- i antiapoptotskih proteina na transkripcionom nivou i povećale stres endoplazmatskog retikuluma, ali i dovele do alteracija ekspresije gena koji kodiraju sintezu antioksidativnih enzima, transmembranskih efluks proteina i enzima uključenih u metaboličku inaktivaciju leka. Žučne kiseline u netoksičnim koncentracijama su takođe značajno povećale prodor i kumulaciju doksorubicina u MCF-7 ćelijskoj liniji. U in vivo sistemu, koadministracija žučnih kiselina nije rezultovala u pobolj&scaron;anju odloženih toksodinamskih efekata visokih doza doksorubicina na biohemijskom i molekularnom nivou. Međutim, nakon pretretmana žučnim kiselinama, vrednosti koncetracija doksorubicina u serumu su bile povi&scaron;ene nakon pretretmana urso- i henodeoksiholnom kiselinom i snižene nakon pretretmana 12-monoketoholnom kiselinom uz povećanje bilijarne sekrecije doksorubicina. Pored promena u farmakokinetskom profilu doksorubicina, pretretman žučnim kiselinama je blago redukovao prodor i kumulaciju doksorubicina u hepatocite i kardiomiocite. Na osnovu rezultata ove studije može se zaključiti da primena ispitivanih žučnih kiselina sa doksorubicinom povećava prodor i pobolj&scaron;ava farmakodinamski profil doksorubicina in vitro, na ćelijskom modelu humanog adenokarcinoma dojke. Pobolj&scaron;anje selektivnog preuzimanja i prodora doksorubicina u maligne ćelije koje nije praćeno povećanom kumulacijom u normalnim tkivima, kao i pobolj&scaron;anje antitumorskog dejstva doksorubicina sa mogućim smanjenjem doze uz smanjenje pojave dozno-zavisnih neželjenih dejstava doksorubicina čini žučne kiseline molekulima kandidatima za dalja ispitivanja u cilju razvoja novih, pobolj&scaron;anih antitumorskih terapijskih strategija.</p> / <p>Due to the amphiphilic structure and the significant conjugation potential, bile acids - endogenously synthesized products of cholesterol catabolism have been recognized as potential drug carriers and promoters of transport through biological membranes. The discovery that by activating specific nuclear receptors bile acids regulate the expression of genes involved in various signaling pathways including metabolism, cell proliferation and differentiation as well as carcinogenesis, expanded initially ascribed role of intestinal emulsifiers to the various fields. Bile acids are now considered not to act only as passive carriers of drugs and promoters of transport through biological membranes, but also as the molecules with pharmacodynamic activity, regulating various aspects of integrative cellular metabolism. Doxorubicin is one of the most commonly prescribed antineoplastic agents as an integral component of many chemotherapy protocols in the treatment of both solid and hematologic malignancies. However, hepatotoxic and cardiotoxic effects significantly limit the use of this, otherwise, very useful anti-tumor agent. The development of dose-dependent cardiotoxic side effects represents particular health issue in successfully treated oncological patients, especially among survivors of pediatric malignancies. Since the development of new drugs is very long and expensive process with an uncertain outcome, improving the pharmacodynamic and pharmacokinetic properties of the existing agents with proven efficacy, while reducing toxic side effects, represents a rational approach to research in modern medicine. The main objective of this work is to examine the role of bile acids: ursodeoxycholic, chenodeoxycholic and 12-oxo-chenodeoxycholic acid (12-monoketocholic acid) on the cytotoxic activity of doxorubicin in the MCF-7 human breast adenocarcinoma cell line, and to get insight on molecular mechanisms responsible for underlying pharmacodynamic effects. The capacity of bile acids to promote the transport and accumulation of doxorubicin in malignant cells was also evaluated. In addition, the effect of co-administration of the bile acids with doxorubicin on delayed toxodynamic effects (hepatotoxicity and cardiotoxicity) in rats, as well as the effects of bile acid pretreatment on the doxorubicin serum concentration and pharmacokinetic profile, biliary excretion of the drug as well as accumulation in the liver and myocardial cells of experimental animals were examined. Bile acids applied in non-toxic concentrations potentiated in vitro cytotoxic effects of doxorubicin in MCF-7 cell line. Chenodeoxycholic acid exhibited a synergistic effect, whereas ursodeoxycholic and 12-monoketocholic acid exhibited an additive cytotoxic effect with doxorubicin. By examining the underlying molecular mechanisms of cytotoxic effects, bile acids have been found to potentiate apoptosis of cells by mitochondrial-dependent pathway by modifying the expression of pro- and anti-apoptotic proteins at the transcriptional level and to increase endoplasmic reticulum stress, but also have altered the expression of genes encoding the synthesis of antioxidant enzymes, transmembrane efflux proteins and enzymes involved in metabolic inactivation of the drug. Non-toxic concentrations of bile acids also significantly increased the penetration and accumulation of doxorubicin in MCF-7 cell line. In the in vivo system, the co-administration of bile acid did not improved delayed toxodynamic effects of high dose of doxorubicin both at the biochemical and molecular levels. However, pretreatment with bile acids resulted in alterations of serum doxorubicin concentrations. Chenodeoxycholic and ursodeoxycholic acid elevated whereas 12-monoketocholic acid decreased serum doxorubicin concentrations. In addition to changing pharmacokinetic profile of doxorubicin on bile acid species-dependent manner, all bile acids have also increased excretion of drug by the biliary route, and slightly reduced penetration and accumulation of doxorubicin in hepatocytes and cardiomyocytes. Based on the results of this study, the administration of the examined bile acids with doxorubicin increases the penetration and improves the pharmacodynamic profile of doxorubicin in vitro on the cell model of human breast adenocarcinoma. The improvement of selective uptake and penetration of doxorubicin into malignant cells that is not accompanied by increased accumulation in normal tissues, as well as the improvement in the anti-tumor effects of doxorubicin with a possibility to reduce the dose and thereby the occurrence of dose-dependent undesirable effects of doxorubicin, render bile acids as the potential candidate molecules in developing novel antitumor therapeutic strategies.</p>

ROLE OF OXIDIZED EXTRACELLULAR VESICLES AS EARLY BIOMARKERS AND INFLAMMATORY MEDIATORS IN CHEMOTHERAPY-INDUCED NORMAL TISSUE INJURY

Yarana, Chontida

01 January 2018

Significant advances in the efficacy of cancer therapy have been accompanied by an escalation of side effects that result from therapy-induced injury to normal tissues. Patients with high grade cancer or metastasis are often treated with chemotherapy, 50% of which are associated with reactive oxygen species generation and cellular oxidative stress. Heart is the normal tissue most susceptible to chemotherapy-induced oxidative stress and heart disease is the most common leading cause of death in cancer survivors. However, early and sensitive biomarkers to identify heart disease are still lacking. Extracellular vesicles (EVs) are released from cells during oxidative stress and send oxidized proteins into the circulation as a compensatory mechanism that prevents cellular proteotoxicity. Thus, the protein contents of EVs released during the pre-degeneration stage reveal that oxidative stress is occurring early in the damaged tissue. Using a mouse model of doxorubicin (DOX)-induced cardiac injury, we demonstrated that EVs can be used as an early diagnostic tool for tissue injury as they are oxidatively modified with 4-hydroxynonenal and contain tissue specific proteins—glycogen phosphorylase brain/heart, muscle, and liver isoforms—that indicate their origins. These biomarkers increased early, before the changes of conventional biomarkers occurred. EVs also mediate intercellular communication by transferring bioactive molecules between cells. In the cell culture system, EVs play an important role in oxidative stress response by inducing macrophage polarization. EVs from cardiomyocytes promoted both proinflammatory (M1) and anti-inflammatory (M2) macrophage polarization evidenced by higher pro- and anti-inflammatory cytokines and nitric oxide generation, as well as mitochondrial oxidative phosphorylation suppression and glycolysis enhancement. In contrast, EVs from the hepatocytes supported anti-inflammatory macrophage (M2) by enhancing oxidative phosphorylation and anti-oxidant proteins. DOX promoted the immunostimulatory effects of cardiomyocyte EVs but not hepatocyte EVs. The differential functions of EVs on macrophage phenotype switching are due to their different effects on Thioredoxin 1 redox state, which regulates activities of redox sensitive transcription factors NFκB and Nrf-2. Our findings shed light on the role of EVs as a redox active mediator of immune response during chemotherapy.

Doxorubicin

extracellular vesicles

biomarkers

oxidative stress

macrophage polarization

Medical Cell Biology

Medical Immunology

Medical Molecular Biology

Medical Toxicology

Chemotherapy in Childhood Acute Lymphoblastic Leukemia : In vitro cellular drug resistance and pharmacokinetics

Frost, Britt-Marie

January 2002

<p>The aims of the studies described in this thesis were to investigate the pharmacokinetics of and cellular resistance to chemotherapy as causes of treatment failure in childhood acute lymphoblastic leukemia (ALL).</p><p>Leukemic cells from 370 children with newly diagnosed ALL were tested by the Fluorometric Microculture Cytotoxicity Assay to measure their resistance to each of ten standard cytotoxic drugs. In the high-risk group, increased in vitro resistance to each of the drugs dexamethasone, etoposide and doxorubicin was associated with a worse clinical outcome. Combining the results for these drugs yielded a drug resistance score, showing a relative risk of relapse in the most resistant group that was 9.8 times higher than in the most sensitive group. In the standard-risk and intermediate-risk groups, final evaluation must await longer follow-up.</p><p>The new cytotoxic agent CHS 828 was equally active in vitro in samples from children with acute myeloblastic leukemia (AML) and ALL, with 50% cell kill at concentrations achievable in vivo. In AML samples CHS 828 also displayed high frequencies of synergistic interactions with four standard drugs. The well-known differences in clinical outcome between Down´s syndrome (DS) and non-DS children with acute leukemia may partly be explained by our finding of differences in drug resistance at the cellular level.</p><p>Pharmacokinetic studies were performed at the start of induction treatment of ALL. Doxorubicin was assayed by reversed-phase liquid chromatography with fluorometric detection, and vincristine by high performance liquid chromatography with electrochemical detection. Plasma doxorubicin concentrations were measured in 107 children after 23 h of a 24-h infusion. The median steady-state concentration in children 4-6 years old, a group known to have a favorable outcome of treatment, was about 50% higher than in those 1-2 and >6 years old Vincristine pharmacokinetics was evaluated in 98 children. There was no correlation between age and total body clearance or any other pharmacokinetic parameters.</p><p>In vitro testing of cellular drug resistance might be useful in predicting the outcome in high-risk ALL. The further exploration of CHS 828 in childhood leukemia seems warranted. There is no pharmacokinetic rationale for the common practice of administering relatively lower doses of vincristine to adolescents than to younger children.</p>

Obstetrics and gynaecology

cytotoxicity

drug resistance

pharmacokinetics

Acute lymphoblastic leukemia

childhood

in vitro assay

vincristine

doxorubicin

Down`s syndrome

CHS 828.

Obstetrik och kvinnosjukdomar

Obstetrics and women's diseases

Obstetrik och kvinnosjukdomar

Chemotherapy in Childhood Acute Lymphoblastic Leukemia : In vitro cellular drug resistance and pharmacokinetics

Frost, Britt-Marie

January 2002

The aims of the studies described in this thesis were to investigate the pharmacokinetics of and cellular resistance to chemotherapy as causes of treatment failure in childhood acute lymphoblastic leukemia (ALL). Leukemic cells from 370 children with newly diagnosed ALL were tested by the Fluorometric Microculture Cytotoxicity Assay to measure their resistance to each of ten standard cytotoxic drugs. In the high-risk group, increased in vitro resistance to each of the drugs dexamethasone, etoposide and doxorubicin was associated with a worse clinical outcome. Combining the results for these drugs yielded a drug resistance score, showing a relative risk of relapse in the most resistant group that was 9.8 times higher than in the most sensitive group. In the standard-risk and intermediate-risk groups, final evaluation must await longer follow-up. The new cytotoxic agent CHS 828 was equally active in vitro in samples from children with acute myeloblastic leukemia (AML) and ALL, with 50% cell kill at concentrations achievable in vivo. In AML samples CHS 828 also displayed high frequencies of synergistic interactions with four standard drugs. The well-known differences in clinical outcome between Down´s syndrome (DS) and non-DS children with acute leukemia may partly be explained by our finding of differences in drug resistance at the cellular level. Pharmacokinetic studies were performed at the start of induction treatment of ALL. Doxorubicin was assayed by reversed-phase liquid chromatography with fluorometric detection, and vincristine by high performance liquid chromatography with electrochemical detection. Plasma doxorubicin concentrations were measured in 107 children after 23 h of a 24-h infusion. The median steady-state concentration in children 4-6 years old, a group known to have a favorable outcome of treatment, was about 50% higher than in those 1-2 and &gt;6 years old Vincristine pharmacokinetics was evaluated in 98 children. There was no correlation between age and total body clearance or any other pharmacokinetic parameters. In vitro testing of cellular drug resistance might be useful in predicting the outcome in high-risk ALL. The further exploration of CHS 828 in childhood leukemia seems warranted. There is no pharmacokinetic rationale for the common practice of administering relatively lower doses of vincristine to adolescents than to younger children.

Obstetrics and gynaecology

cytotoxicity

drug resistance

pharmacokinetics

Acute lymphoblastic leukemia

childhood

in vitro assay

vincristine

doxorubicin

Down`s syndrome

CHS 828.

Obstetrik och kvinnosjukdomar

Obstetrics and women's diseases

Obstetrik och kvinnosjukdomar

Thermodynamic and Spectroscopic Studies on the Molecular Interaction of Doxorubicin (DOX) with Negatively Charged Polymeric Nanoparticles

Gaurav, Raval

26 November 2012

The aim of this study was to investigate the molecular interactions of the anti-cancer drug Doxorubicin (DOX) with poly(methacrylic acid) grafted starch nanoparticles (PMAA-g-St). In order to fully understand the DOX/PMAA-g-St system, we conducted in-depth studies on DOX dimer dissociation and DOX/PMAA-g-St binding interactions using various techniques such as isothermal titration calorimetry (ITC), dynamic light scattering (DLS), and fluorescence and absorption spectroscopy. Based on our experimental results, we developed a quantitative thermodynamic model with relevant parameters such as dissociation constant, Kd, as well as enthalpy of binding, ΔH, in order to explain DOX/PMAA-g-St interactions. In addition, we also studied the effect of environmental factors such as pH and NaCl on DOX self-association and DOX/PMAA-g-St complex formation. In conclusion, the combination of results obtained from various techniques as well as the multispecies equilibrium model, enables us to interpret quantitatively the data of drug loading onto and release from polymeric nanoparticles.

Doxorubicin

Isothermal Titration Calorimetry

Dynamic Light Scattering

Drug/Polymer Interactions

Electrostatic Interactions

Specific binding

Mechanism of binding

effect of sodium chloride

effect of pH

0491

0494

0495

0572

Nanocarrier mediated therapies for the gliomas of the brain.

Agarwal, Abhiruchi

21 January 2011

Existing methods of treating glioma are not effective for eradicating the disease. Therefore, new and innovative methods of treatment alone or in combination with existing therapies are necessary. Delivery of therapeutic agents through delivery carriers such as liposomes diminishes the harmful effects of the agent in healthy tissues and allows increased accumulation in the tumor. In addition, targeted chemotherapy using liposomes provides the opportunity for further increase in drug accumulation in tumor. However, the current targeting strategies suffer accelerated plasma clearance and are not advantageous in improving efficacy. The search for new tumor targets, novel ligands, new strategies for targeting, and particle stabilization will advance our ability to improve delivery at the tumor level while decreasing toxicity to normal tissues. The global objective of this thesis was to improve the status of current liposomal therapy to achieve higher efficacy in tumors. Here, we show a novel mechanism to increase targeting to tumor while uncompromising on the long circulation of stealth liposomes. Long circulation is essential for passive accumulation of the nanocarriers due to EPR effect, in order to see benefits of targeting. Using phage display technique, a variety of tumor specific peptides were identified for use as targeting moieties. One potential advantage of the approach proposed here is the rapid identification of patient tumor specific peptide that evades the RES. This could lead to the development of a nanocarrier system with high avidity and selectivity for tumors. Therefore, tumor accumulation of the targeted formulations will be higher than that of non‐targeted liposomes due to increased drug retention at the tumor site and uncompromised blood residence time.In addition, it has been shown that the distribution of nanocarriers, spatially within the tumor, is limited that might further hinder the distribution of the encapsulated drug, thereby limiting efficacy. It is necessary to release the drug from within the nanocarrier to promote increased efficacy. Here, we were able to address the problem of drug diffusion within the tumor interstitium using a combination therapy employing a remotely triggered thermosensitive liposomal chemotherapeutic. We fabricated a thermosensitive liposomal nanocarrier that maintained its stability at physiological temperature to minimize toxicity to healthy cells. We, then, showed a remote triggering mechanism mediated by gold nanorods heated via NIR can help in achieving precise control over the desired site for drug release. These strategies enabled increased drug availability at the tumor site and contributed to tumor retardation. Additionally, we show that the synergistic therapy employing gold nanorods and thermosensitive liposomes may have great potential to be translated to the clinic.

Thermosensitive

Gold nanorods

Liposomes

Nanocarrier

Tumor distribution

In vivo fluorescence imaging

Bioavailability

Drug delivery

Doxorubicin

Active targeting

Gliomas

Liposomes

Drug delivery systems

Tumor markers