Avaliação da quimiosensibilidade de mastocitomas caninos graus I, II e III ao ácido retinóico todo-trans / Evaluation of the chemosensibility of canine mast cell tumor grades I, II and III to the all trans retinoic acid

Katia Cristina Pinello

08 December 2006

O mastocitoma é o tumor cutâneo mais comum dos cães, representando 7% a 21% dos tumores da pele e tecidos moles, 11% a 27% dos tumores malignos cutâneos nessa espécie. Eles possuem uma grande variedade de aparência e comportamento, o qual o torna um desafio seu tratamento. Os retinóides são uma promessa na luta contra o câncer. Entretanto, há poucos estudos sobre os efeitos dos retinóides em neoplasias caninas. O presente trabalho teve como objetivo caracterizar a cultura primária de mastocitomas caninos assim como investigar a quimiosensibilidade deste tumor ao ácido retinóico todo-trans (ATRA). A cultura primária de mastocitomas caninos foi realizada em co-cultivo com fibroblastos, que demonstrou uma interação favorável entre mastócitos e fibroblastos, com uma sobrevida média de 30 dias. A quimiosensibilidade dos mastocitomas caninos ao ATRA não mostrou diferenças entre os graus de mastocitomas, ou seja, tanto um mastocitoma grau II ou III respondem igualmente ao ATRA nas doses estudadas. Foi constatado também que o mastocitoma é mais sensível na concentração 10-4M de ATRA (p < 0,002). Existe também um efeito já nas primeiras 24h, mas esse não se altera em 48h, entretanto se intensifica após 72h. Podemos inferir, então, que a maior quimiosensibilidade de mastocitomas caninos ao ATRA se dá após 72h de exposição na dose de 10-4M. Podemos concluir que o ATRA apresenta efeitos sobre as células de mastocitomas caninos e pode ser usado como potencial adjuvante no tratamento desta neoplasia. / Mast cell tumor (MCT) is one of the most frequent neoplasms that affect the skin and soft tissue of the dog, representing about 7% a 21% of all skin tumors and 11% a 27% of malignant skin tumors in this specie. They present a great variety of appearance and behavior, which becomes a challenge to the treatment. The retinoids are well recognized as promising antitumor agents. However, there have only been a few reports about the effect of retinoids in canine cancers. The aim of this study was to characterize the primary mast cell tumor culture and to investigate the chemosensitivity of this tumor to all trans retinoic acid (ATRA). The primary cell culture of MCT was performed as co-cultive with fibroblasts, showing a positive interaction between mast cells and fibroblasts, with a lifetime of 30 days. The chemosensitivity of MCT to ATRA showed no difference between grade II or III, thus either a MCT grade II or grade III has the same response with ATRA at the doses studied. It has been shown that the MCT is more sensible at the dose 10-4M (p < 0,002). There is also an effect on first 24h untill 48h, changing after 72h. According to these results, it is possible to state that the great chemosensitivity of MCT to ATRA is after 72h of exposition at 10-4M. We can conclude that ATRA may be a potential adjunctive chemotherapeutic agent for the treatment of canine mast cell tumor.

ácido retinóico

ATRA

cultura primária

mastocitoma

quimiosensibilidade

ATRA

chemosensitivity

mast cell tumor

primary cell culture

retinoic acid

The Role and Regulation of p53-associated, Parkin-like Cytoplasmic Protein (PARC) in p53 Subcellular Trafficking and Chemosensitivity in Human Ovarian Cancer Cells

Woo, Michael G.

26 March 2012

Resistance to cisplatin (CDDP)-based therapy is a major hurdle to the successful treatment of human ovarian cancer (OVCA) and the chemoresistant phenotype in OVCA cells is associated with Akt-attenuated, p53-mediated apoptosis. Pro-apoptotic functions of p53 involve both transcription-dependent and -independent signaling pathways and dysfunctional localization and/or inactivation of p53 contribute to the development of chemoresistance. PARC is a cytoplasmic protein regulating p53 subcellular localization and subsequent function. Little is known about the molecular mechanisms regulating PARC. Although PARC contains putative caspase-3 cleavage sites, and CDDP is known to induce the activation of caspases and calpains and induce proteasomal degradation of anti-apoptotic proteins, if and how PARC is regulated by CDDP in OVCA is unknown. Here we present evidence that CDDP promotes calpain-mediated PARC down-regulation, mitochondrial and nuclear p53 accumulation and apoptosis in chemosensitive but not resistant OVCA cells. Inhibition of Akt is required to sensitize chemoresistant cells to CDDP in a p53-dependent manner, an effect enhanced by PARC down-regulation. CDDP-induced PARC down-regulation is reversible by inhibitor of calpain but not of caspase-3 or the 26S proteasome. Furthermore, in vitro experiments confirm the ability of calpain in mediating Ca2+-dependent PARC down-regulation. The role of Ca2+ in PARC down-regulation was further confirmed as ionomycin induced PARC down-regulation in both chemosensitive and chemoresistant ovarian cancer cells. The data presented here implicates the regulation of p53 subcellular localization and apoptosis by PARC as a contributing factor in CDDP resistance in OVCA cells and Ca2+/calpain in PARC post-translational processing and chemosensitivity.

chemoresistance

chemosensitive

PARC

p53

subcellular trafficking

calpain

ovarian cancer

cisplatin

apoptosis

chemosensitivity

Akt

PI3K

Locus Coeruleus Neurons in Autonomic Regulation of Breathing: Insight from a Mouse Model of Rett Syndrome

Zhang, Xiaoli

26 April 2010

Patients with Rett Syndrome (RTT) show severe breathing disorders in addition to other neuropathological features, contributing to the high incidence of sudden unexplained death and abnormal brain development. However, the molecular and cellular mechanisms underlying the breathing disorders are still unknown. Recent studies indicate that the dysfunction of brainstem norepinephrine (NE) systems are closely associated with breathing disorders in RTT patients as well as its mice model, the Mecp2-null (Mecp2─/Y) mice. This as well as the fact the major group of NE-ergic neurons in the locus coeruleus (LC) is CO2 chemosensitive suggests that the breathing disorders in RTT may be related these LC neurons. To test this hypothesis, we took a multidisciplinary approach and systematically studied these neurons using molecular biology, in-vitro brain slices, acutely dissociated neurons, immunocytochemistry, and whole-body plethysmograph. To facilitate the electrophysiological studies, we developed a new strain of transgenic mice with GFP expression selectively in the LC neurons of both WT and Mecp2─/Y mice. Breathing activity of the Mecp2─/Y mice showed selective disruptions in responses to mild hypercapnia. The defect was alleviated with the NE uptake blocker desipramine, suggesting the involvement of NE in central CO2 chemosensitivity. In the LC region, the expressions of tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH) at both protein and mRNA levels reduced by ~50% in Mecp2─/Y mice. No evidence was found for selective deficiency in TH- or DBH-containing neurons in Mecp2─/Y mice, and no major loss of NE-ergic LC cells were found, indicating that the NE defect is likely to result from deficient expression of biosynthetic enzymes rather than a loss of neurons in the LC. Several intrinsic membrane properties were abnormal in Mecp2─/Y LC neurons in comparison to wild type cells, including stronger inward rectification, shorter time constant, extended action potential duration, smaller amplitude of medium afterhyperpolarization (AHP) and over-expression of fast AHP. These abnormalities seem to be associated with the altered K+ and Na+ currents. Most importantly, Mecp2─/Y LC neurons displayed defective CO2 chemosensitivity in agreement of in vivo CO2 response, likely due to excessive expression of the homomeric Kir4.1 channel. Thus, it seems that the global effect of MeCP2 on the A6 NE system contributes to the impaired systemic CO2 response as well as the breathing irregularities in Mecp2─/Y mice. Such an alteration allowed CO2 to be detected only when hypercapnia became severe, leading to periodical hyper- and hypoventilation. These findings not only provide a novel etiology for the breathing disturbances of Mecp2─/Y mice but also show direct evidence for the first time on a molecular mechanism for the central CO2 chemosensitivity.

Dopamine β-hydroxylase

CO2 chemosensitivity

Breathing rhythm

Locus coeruleus

Norepinephrine

Monoaminergic

Rett syndrome

Intrinsic membrane properties

Brainstem

Biology, general

The Role and Regulation of p53-associated, Parkin-like Cytoplasmic Protein (PARC) in p53 Subcellular Trafficking and Chemosensitivity in Human Ovarian Cancer Cells

Woo, Michael G.

26 March 2012

Resistance to cisplatin (CDDP)-based therapy is a major hurdle to the successful treatment of human ovarian cancer (OVCA) and the chemoresistant phenotype in OVCA cells is associated with Akt-attenuated, p53-mediated apoptosis. Pro-apoptotic functions of p53 involve both transcription-dependent and -independent signaling pathways and dysfunctional localization and/or inactivation of p53 contribute to the development of chemoresistance. PARC is a cytoplasmic protein regulating p53 subcellular localization and subsequent function. Little is known about the molecular mechanisms regulating PARC. Although PARC contains putative caspase-3 cleavage sites, and CDDP is known to induce the activation of caspases and calpains and induce proteasomal degradation of anti-apoptotic proteins, if and how PARC is regulated by CDDP in OVCA is unknown. Here we present evidence that CDDP promotes calpain-mediated PARC down-regulation, mitochondrial and nuclear p53 accumulation and apoptosis in chemosensitive but not resistant OVCA cells. Inhibition of Akt is required to sensitize chemoresistant cells to CDDP in a p53-dependent manner, an effect enhanced by PARC down-regulation. CDDP-induced PARC down-regulation is reversible by inhibitor of calpain but not of caspase-3 or the 26S proteasome. Furthermore, in vitro experiments confirm the ability of calpain in mediating Ca2+-dependent PARC down-regulation. The role of Ca2+ in PARC down-regulation was further confirmed as ionomycin induced PARC down-regulation in both chemosensitive and chemoresistant ovarian cancer cells. The data presented here implicates the regulation of p53 subcellular localization and apoptosis by PARC as a contributing factor in CDDP resistance in OVCA cells and Ca2+/calpain in PARC post-translational processing and chemosensitivity.

chemoresistance

chemosensitive

PARC

p53

subcellular trafficking

calpain

ovarian cancer

cisplatin

apoptosis

chemosensitivity

Akt

PI3K

Sphingosine kinase 1 expression is involved in leukemogenesis and modulates cellular sphingolipid rheostat, which is a good predictive marker of daunorubicin sensitivity

祖父江, 沙矢加, SOBUE, Sayaka

25 March 2008

名古屋大学博士学位論文 学位の種類:博士（医療技術学）（課程） 学位授与年月日:平成20年3月25日

Sphingolipid metabolic enzyme

Sphingosine kinase 1

Neutral sphingomyelinase 2

quantitative RT-PCR

Daunorubicin

Chemosensitivity

Ceramide

Sphingosine 1-phosphate

The Role and Regulation of p53-associated, Parkin-like Cytoplasmic Protein (PARC) in p53 Subcellular Trafficking and Chemosensitivity in Human Ovarian Cancer Cells

Woo, Michael G.

26 March 2012

Resistance to cisplatin (CDDP)-based therapy is a major hurdle to the successful treatment of human ovarian cancer (OVCA) and the chemoresistant phenotype in OVCA cells is associated with Akt-attenuated, p53-mediated apoptosis. Pro-apoptotic functions of p53 involve both transcription-dependent and -independent signaling pathways and dysfunctional localization and/or inactivation of p53 contribute to the development of chemoresistance. PARC is a cytoplasmic protein regulating p53 subcellular localization and subsequent function. Little is known about the molecular mechanisms regulating PARC. Although PARC contains putative caspase-3 cleavage sites, and CDDP is known to induce the activation of caspases and calpains and induce proteasomal degradation of anti-apoptotic proteins, if and how PARC is regulated by CDDP in OVCA is unknown. Here we present evidence that CDDP promotes calpain-mediated PARC down-regulation, mitochondrial and nuclear p53 accumulation and apoptosis in chemosensitive but not resistant OVCA cells. Inhibition of Akt is required to sensitize chemoresistant cells to CDDP in a p53-dependent manner, an effect enhanced by PARC down-regulation. CDDP-induced PARC down-regulation is reversible by inhibitor of calpain but not of caspase-3 or the 26S proteasome. Furthermore, in vitro experiments confirm the ability of calpain in mediating Ca2+-dependent PARC down-regulation. The role of Ca2+ in PARC down-regulation was further confirmed as ionomycin induced PARC down-regulation in both chemosensitive and chemoresistant ovarian cancer cells. The data presented here implicates the regulation of p53 subcellular localization and apoptosis by PARC as a contributing factor in CDDP resistance in OVCA cells and Ca2+/calpain in PARC post-translational processing and chemosensitivity.

chemoresistance

chemosensitive

PARC

p53

subcellular trafficking

calpain

ovarian cancer

cisplatin

apoptosis

chemosensitivity

Akt

PI3K

The Role and Regulation of p53-associated, Parkin-like Cytoplasmic Protein (PARC) in p53 Subcellular Trafficking and Chemosensitivity in Human Ovarian Cancer Cells

Woo, Michael G.

January 2012

Resistance to cisplatin (CDDP)-based therapy is a major hurdle to the successful treatment of human ovarian cancer (OVCA) and the chemoresistant phenotype in OVCA cells is associated with Akt-attenuated, p53-mediated apoptosis. Pro-apoptotic functions of p53 involve both transcription-dependent and -independent signaling pathways and dysfunctional localization and/or inactivation of p53 contribute to the development of chemoresistance. PARC is a cytoplasmic protein regulating p53 subcellular localization and subsequent function. Little is known about the molecular mechanisms regulating PARC. Although PARC contains putative caspase-3 cleavage sites, and CDDP is known to induce the activation of caspases and calpains and induce proteasomal degradation of anti-apoptotic proteins, if and how PARC is regulated by CDDP in OVCA is unknown. Here we present evidence that CDDP promotes calpain-mediated PARC down-regulation, mitochondrial and nuclear p53 accumulation and apoptosis in chemosensitive but not resistant OVCA cells. Inhibition of Akt is required to sensitize chemoresistant cells to CDDP in a p53-dependent manner, an effect enhanced by PARC down-regulation. CDDP-induced PARC down-regulation is reversible by inhibitor of calpain but not of caspase-3 or the 26S proteasome. Furthermore, in vitro experiments confirm the ability of calpain in mediating Ca2+-dependent PARC down-regulation. The role of Ca2+ in PARC down-regulation was further confirmed as ionomycin induced PARC down-regulation in both chemosensitive and chemoresistant ovarian cancer cells. The data presented here implicates the regulation of p53 subcellular localization and apoptosis by PARC as a contributing factor in CDDP resistance in OVCA cells and Ca2+/calpain in PARC post-translational processing and chemosensitivity.

chemoresistance

chemosensitive

PARC

p53

subcellular trafficking

calpain

ovarian cancer

cisplatin

apoptosis

chemosensitivity

Akt

PI3K

Chemosensitivity of Patient-Derived Cancer Stem Cells Identifies Colorectal Cancer Patients with Potential Benefit from FGFR Inhibitor Therapy / 大腸がん患者由来のがん幹細胞を用いたFGFR阻害薬の有効性予測

Yamamoto, Takehito

23 March 2021

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23062号 / 医博第4689号 / 新制||医||1048(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 武藤 学, 教授 妹尾 浩, 教授 小川 誠司 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

chemosensitivity

cancer stem cell

spheroid

organoid

patient-derived xenograft (PDX)

490

Schnittkulturen von humanen Plattenepithelkarzinomen der Kopf-Hals-Region: Ein neues Modell zur Chemosensibilitätstestung

Gerlach, Magdalena

17 November 2014

Background: Human head and neck squamous cell carcinoma (HNSCC) fundamentally vary in their susceptibility to different cytotoxic drugs and treatment modalities. There is at present no clinically accepted test system to predict the most effective therapy for an individual patient. Methods: Therefore, we established tumor-derived slice cultures which can be kept in vitro for at least six days. Upon treatment with cisplatin, docetaxel and cetuximab, slices were fixed and paraffin sections were cut for histopathological analysis. Results: Apoptotic fragmentation, activation of caspase 3, and cell loss were observed in treated tumor slices. Counts of nuclei per field in untreated compared to treated slices deriving from the same tumor allowed estimation of the anti-neoplastic activity of individual drugs on an individual tumor. Conclusion: HNSCC-derived slice cultures survive well in vitro and may serve to improve personalized therapies, but also to detect mechanisms of tumor resistance by harvesting surviving tumor cells after treatment.

info:eu-repo/classification/ddc/610

ddc:610

Organotypische Schnittkulturen aus humanen Adenokarzinomen des Magens und des gastroösophagealen Überganges

Körfer, Karl Justus

30 March 2017

Gastric and esophagogastric junction cancers are heterogeneous and aggressive tumors with an unpredictable response to cytotoxic treatment. New methods allowing for the analysis of drug resistance are needed. Here, we describe a novel technique by which human tumor specimens can be cultured ex vivo, preserving parts of the natural cancer microenvironment. Using a tissue chop- per, fresh surgical tissue samples were cut in 400 μm slices and cultivated in 6-well plates for up to 6 days. The slices were processed for routine histopa- thology and immunohistochemistry. Cytokeratin stains (CK8, AE1/3) were ap- plied for determining tumor cellularity, Ki-67 for proliferation, and cleaved caspase-3 staining for apoptosis. The slices were analyzed under naive conditions and following 2–4 days in vitro exposure to 5-FU and cisplatin. The slice culture technology allowed for a good preservation of tissue morphology and tumor cell integrity during the culture period. After chemotherapy exposure, a loss of tumor cellularity and an increase in apoptosis were observed. Drug sensitivity of the tumors could be assessed. Organotypic slice cultures of gastric and es- ophagogastric junction cancers were successfully established. Cytotoxic drug effects could be monitored. They may be used to examine mechanisms of drug resistance in human tissue and may provide a unique and powerful ex vivo platform for the prediction of treatment response.

organotypische Schnittkulturen

personalisierte Therapie

Chemosensitivity

esophagogastric junction cancer

gastric cancer

organotypic slice cultures

personalized treatment

ddc:610