Dysregulation of autophagy in chronic lymphocytic leukemia with the small-molecule Sirtuin inhibitor Tenovin-6

MacCallum, S., Groves, M.J., James, J., Murray, K., Appleyard, V., Prescott, A.R., Drbal, Abed Alnaser A.A., Nicolaou, Anna, Cunningham, J., Haydock, S., Ganley, I.G., Westwood, N.J., Coates, P.J., Lain, S., Tauro, S.

23 January 2013

No / Tenovin-6 (Tnv-6) is a bioactive small molecule with anti-neoplastic activity. Inhibition of the Sirtuin class of protein deacetylases with activation of p53 function is associated with the pro-apoptotic effects of Tnv-6 in many tumors. Here, we demonstrate that in chronic lymphocytic leukemia (CLL) cells, Tnv-6 causes non-genotoxic cytotoxicity, without adversely affecting human clonogenic hematopoietic progenitors in vitro, or murine hematopoiesis. Mechanistically, exposure of CLL cells to Tnv-6 did not induce cellular apoptosis or p53-pathway activity. Transcriptomic profiling identified a gene program influenced by Tnv-6 that included autophagy-lysosomal pathway genes. The dysregulation of autophagy was confirmed by changes in cellular ultrastructure and increases in the autophagy-regulatory proteins LC3 (LC3-II) and p62/Sequestosome. Adding bafilomycin-A1, an autophagy inhibitor to Tnv-6 containing cultures did not cause synergistic accumulation of LC3-II, suggesting inhibition of late-stage autophagy by Tnv-6. Thus, in CLL, the cytotoxic effects of Tnv-6 result from dysregulation of protective autophagy pathways.

Drug development

Chronic lymphocytic leukaemia

Macroautophagy

Tenovin-6

Tnv-6

Anti-neoplastic activity

Effects of IL-2,IL-6,IL-7 and IFN on the proliferation,survival,induction and reduction of spontaneous in-vitro apoptosis of B CLL cells

Seahloli, Michael Sello

14 February 2007

Student Number : 9708297R - MSc (Med) dissertation - School of Medicine - Faculty of Health Sciences / B chronic lymphocytic leukaemia (B-CLL) is a monoclonal haematopoietic disorder with expansion of small lymphocytes of B-cells. B-CLL cells accumulate in blood, bone marrow, lymph nodes and spleen, resulting in enlargement of these organs and decreased bone marrow function. B-CLL is the most common leukaemia, with an annual incidence of 1.8 to 3.0 per 100 000 population in the United States. It is characterised by the accumulation of long-lived monoclonal CD5+ B lymphocytes. In vivo normal B-lymphocytes derive growth factors through interactions with T-cells and monocytes. In culture however, survival and growth of activated B-cells depends on the availability of external factors such as interleukins. B-CLL cells populations are unable to survive in culture long enough to respond to the addition of growth factors. Such factors are important for the proliferation and survival of many cell types and in the absence of cytokines, these cells die as a result of apoptosis. Chronic lymphocytic leukaemia cells are influenced in vitro by a number of exogenously added cytokines that include IFN- α, IFN-γ, IL-2, IL-4, IL-10, IL-13, IL-15, TGF- β and TNF- α. The aim of this study was to investigate the effect of cytokines e.g., IFN, IL-2, IL-6, IL7 and IL-10 on the proliferation and survival of B-CLL cells and furthermore to compare the induction and reduction of spontaneous and induced apoptosis in vitro. Patients with B-CLL were recruited from three centres. Thirty blood samples were collected, separated using Ficoll Hypaque Gradient and purified by rosetting with AET treated SRBC. The proliferation and survival of B-CLL cells were studied in vitro in response to GM-CSF, IFN, IL-2, IL-6, IL7 and IL-10,. The survival and apoptosis of B-CLL cells in cultures with or without interleukins and other growth factors were studied under microscopic examinations and DNA agarose gel electrophoresis. It was observed in B-CLL cells cultures that IFN and IL-2 enhanced proliferation significantly. IL6, IL-7 and GM-CSF also enhanced proliferation of B-CLL cells but not to the greater extent than IL2 and IFN. IL-10 inhibited proliferation of B-CLL cells when compared to controls. In a long-term (5-day) culture, survival of B-CLL cells was greatly enhanced by IFN and followed by IL-2. Therefore it appeared that IFN and IL-2 are the two most potent growth factors tested in this study to promote B-CLL cells proliferation and survival. The combination of these mitogens did not further enhanced proliferation. IL-6 and GM-CSF enhanced proliferation and survival of B-CLL cells. IL-7 promoted proliferation but had no effect on survival of B-CLL cells in-vitro. IL-10 enhanced apoptosis and did not promote survival of B-CLL cells in-vitro. IFN and IL2 are survival and promoting growth factors for B-CLL cells in culture. In contrast, IL-10 has demonstrated to induce apoptotic cell death of B-CLL cells. In conclusion B-CLL cells proliferated equally well with IFN and IL-2. IL-6, IL-7 and GM-CSF had a much lower proliferation and survival effect with noticeable antiapototic activity when compared to IFN and IL-2. IL-7 was found not to promote survival of B-CLL cells and IL-10 enhanced cell death by apoptosis.

B chronic lymphocytic leukaemia

B-CLL

B-cells

monoclonal haematopoietic disorder

leukaemia

monoclonal CD5+ B lymphocytes

apoptosis

El microambiente y la autoinmunidad en la leucemia linfática crónica

Ferrer Aguilar, Gerardo

04 July 2012

La leucemia linfática crónica (LLC) es la leucemia más frecuente en los países occidentales. En esta enfermedad es frecuente hallar complicaciones autoinmunes. A pesar de que la relación entre LLC y trastornos autoinmunes se conoce desde hace prácticamente cinco décadas, los mecanismos responsables de la autoinmunidad en la LLC y sus repercusiones clínicas todavía no se conocen con precisión. Mientras la asociación entre citopenias autoinmunes y LLC está perfectamente demostrada, la relación entre trastornos inmunes no hemáticos y la LLC es controvertida. En esta tesis doctoral se analizó la relación entre citopenias autoinmunes con la LLC y sus características biológicas, así como implicaciones clínicas, y el papel de las moléculas BAFF y APRIL como vínculo de unión entre la autoinmunidad y la LLC. Los principales hallazgos de esta tesis se pueden resumir de la siguiente forma. En el primer lugar, la incidencia de citopenia autoinmune en una serie de 960 pacientes con LLC por nosotros seguidos fue del 7%, en concordancia con otras series. Los pacientes con LLC y citopenias autoinmunes presentaban datos de mal pronóstico, como un recuento linfocitario elevado, un tiempo de duplicación linfocitario rápido, y B2M sérica, ZAP-70 y CD38 elevadas. De forma sumamente importante, los enfermos con estadio avanzado atribuible a un origen inmune tenían un pronóstico mejor que aquellos en los que la fase avanzada de la enfermedad reflejaba una alta carga tumoral. Ello invita, de acuerdo con otro estudio de la Clínica Mayo, y de la Editorial en Blood que acompañó a nuestra publicación, a diferenciar dentro de los pacientes con LLC en estadio avanzado aquellos en los que la citopenia tiene un origen autoinmune (C “inmune”) y los que la anemia se debe al fallo de la medula ósea a causa de la infiltración linfocitaria (C “infiltrativo”). BAFF y APRIL dos miembros de la familia de proteínas TNF claves en la regulación del desarrollo y supervivencia de los linfocitos B, están implicadas en la patogénesis de la LLC y en la autoinmunidad por lo que pueden constituir un vínculo fisiopatológico entre los componentes neoplásico e inmune de la LLC. En esta tesis observamos que los pacientes con LLC presentaban niveles altos de APRIL y bajos de BAFF en comparación con sujetos sanos. Además, los niveles de BAFF se correlacionaban con el recuento linfocitario en sangre, el estadio avanzado de la enfermedad y la presencia de la anemia hemolítica autoinmune. Por último, la valoración conjunta de BAFF y APRIL ofreció mayor información pronóstica que ambas moléculas por separado. / Chronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries. Although it is well documented that autoimmune complications are common in these patients, the clinical relevance and the biological basis of autoimmune phenomena in CLL have not yet been clearly established. Autoimmune cytopenias are clearly related to LLC, but no causal link between CLL and autoimmune diseases not targeting blood cells has been established. The results of this doctoral thesis can be summarized as follows. First, the incidence of autoimmune cytopenia in 960 patients with CLL from our institution was 7%, which is consistent with other reports. Although patients with autoimmune cytopenias presented poor prognostic factors, such as a high lymphocyte count, a rapid lymphocyte doubling time, and high levels of serum B2M, ZAP-70 and CD38, their prognosis was similar to that of other patients. In fact, the cohort of patients classified as in advanced due to autoimmune cytopenia had a better prognosis than those classified in advanced disease because of bone marrow failure related to the infiltration by the disease. Our results and similar findings from another study suggest that patients in advanced stage of disease should be separated according to the origin of the cytopenia ("autoimmunity" or "infiltration"). BAFF and APRIL, two members of the TNF family proteins, are key regulators of the development and survival of B lymphocytes. These molecules are involved in CLL pathogenesis and autoimmunity and can constitute a link between the neoplastic and the immune components of CLL. We found that patients with CLL had higher levels of APRIL and lower levels of BAFF as compared to healthy subjects. In addition, BAFF levels correlated with blood lymphocyte count, advanced clinical stage and autoimmune hemolytic anemia. Finally, the combination of serum levels of both BAFF and APRIL provided better prognostic information on disease progression than any of these molecules independently considered.

Leucèmia limfocítica crònica

Leucemia linfocítica crónica

Chronic lymphocytic leukaemia

Microambient

Microambiente

Autoimmunitat

Autoinmunidad

Autoimmunity

Ciències de la Salut

616.1

Application of In Vitro Chemosensitivity Testing for Evaluation of New Cytotoxic Drugs in Chronic Lymphocytic Leukaemia

Åleskog, Anna

January 2002

<p>Despite major advances in the understanding of the biology of chronic lymphocytic leukaemia (CLL), progress in improving its treatment has been limited and it still remains an incurable disorder. In the present research, we have performed <i>in vitro</i> drug sensitivity testing of primary CLL cells for preclinical evaluation of cytotoxic drugs, using the fluorometric microculture cytotoxicity assay (FMCA).</p><p>The tumour type-specific activities of 14 standard drugs, evaluated <i>in vitro</i> on tumour cells from patients with CLL and acute leukaemias, were in good agreement with their known clinical activities. A correlation between drug treatment and development of cellular drug resistance was demonstrated in CLL, but not in the acute leukaemias. Moreover, the nucleoside analogues fludarabine, cladribine, cytarabine and gemcitabine, as well as the anthracycline idarubicin, were highly active in CLL cells.</p><p>A new cytotoxic drug candidate, CHS 828, was evaluated in primary cell cultures from a broad spectrum of tumours. CHS 828 was highly active against haematological malignancies <i>in vitro</i>, especially CLL, but also against some solid tumours. The drug appeared to be non cross-resistant with standard drugs.</p><p>In addition, the relationship between drug sensitivity <i>in vitro</i> and a recently described prognostic factor in CLL, the mutational status of the immunoglobulin variable heavy chain (IgV_H) gene, was evaluated. Interestingly, cells with unmutated IgV_H genes were more chemosensitive than the mutated cells. </p><p>In summary, our results indicate that <i>in vitro</i> studies on tumour cellsfrom leukaemia patients may yield considerable information regarding the activity, mechanisms of action and cross-resistance of cytotoxic drugs, as well as concerning the relationship between drug sensitivity and prognostic factors, which can be useful in the preclinical evaluation of new cytotoxic drugs. Furthermore, the results suggest that the pyrimidine analogues cytarabine and gemcitabine, as well as the anthracycline idarubicin, may have a role in the treatment of CLL. The new cyanoguanidine CHS 828 is highly active in CLL cells and appears to be non cross-resistant with standard drugs. The poorer prognosis in patients with CLL cells with unmutated IgV_H genes can not be explained by increased chemoresistance.</p>

Clinical drug development

chronic lymphocytic leukaemia

cytotoxicity

in vitro assay

cytotoxic drug development

CHS 828

IgVH mutation status

Klinisk läkemedelsutveckling

Pharmaceutical chemistry

Läkemedelskemi

Application of In Vitro Chemosensitivity Testing for Evaluation of New Cytotoxic Drugs in Chronic Lymphocytic Leukaemia

Åleskog, Anna

January 2002

Despite major advances in the understanding of the biology of chronic lymphocytic leukaemia (CLL), progress in improving its treatment has been limited and it still remains an incurable disorder. In the present research, we have performed in vitro drug sensitivity testing of primary CLL cells for preclinical evaluation of cytotoxic drugs, using the fluorometric microculture cytotoxicity assay (FMCA). The tumour type-specific activities of 14 standard drugs, evaluated in vitro on tumour cells from patients with CLL and acute leukaemias, were in good agreement with their known clinical activities. A correlation between drug treatment and development of cellular drug resistance was demonstrated in CLL, but not in the acute leukaemias. Moreover, the nucleoside analogues fludarabine, cladribine, cytarabine and gemcitabine, as well as the anthracycline idarubicin, were highly active in CLL cells. A new cytotoxic drug candidate, CHS 828, was evaluated in primary cell cultures from a broad spectrum of tumours. CHS 828 was highly active against haematological malignancies in vitro, especially CLL, but also against some solid tumours. The drug appeared to be non cross-resistant with standard drugs. In addition, the relationship between drug sensitivity in vitro and a recently described prognostic factor in CLL, the mutational status of the immunoglobulin variable heavy chain (IgVH) gene, was evaluated. Interestingly, cells with unmutated IgVH genes were more chemosensitive than the mutated cells. In summary, our results indicate that in vitro studies on tumour cellsfrom leukaemia patients may yield considerable information regarding the activity, mechanisms of action and cross-resistance of cytotoxic drugs, as well as concerning the relationship between drug sensitivity and prognostic factors, which can be useful in the preclinical evaluation of new cytotoxic drugs. Furthermore, the results suggest that the pyrimidine analogues cytarabine and gemcitabine, as well as the anthracycline idarubicin, may have a role in the treatment of CLL. The new cyanoguanidine CHS 828 is highly active in CLL cells and appears to be non cross-resistant with standard drugs. The poorer prognosis in patients with CLL cells with unmutated IgVH genes can not be explained by increased chemoresistance.

Clinical drug development

chronic lymphocytic leukaemia

cytotoxicity

in vitro assay

cytotoxic drug development

CHS 828

IgVH mutation status

Klinisk läkemedelsutveckling

Pharmaceutical chemistry

Läkemedelskemi

Identificació de noves dianes terapèutiques en neoplàsies limfoides

Xargay i Torrent, Sílvia

29 October 2012

El limfoma de cèl•lules de mantell (MCL) i la leucèmia limfàtica crònica (CLL) són dues neoplàsies limfoides fins al moment incurables, per la qual cosa requereixen la recerca de nous fàrmacs. La identificació de noves dianes terapèutiques per al MCL i la CLL, i del mecanisme molecular d’actuació d’aquests fàrmacs en aquestes neoplàsies, té una gran rellevància translacional. El concepte de medicina personalitzada està basat en l’ús de teràpies dirigides a través d’un coneixement profund dels mecanismes moleculars d’acció d’aquests agents. Amb l’augment del coneixement sobre l’etiologia del càncer, s’han descobert noves dianes alterades específicament en les cèl•lules tumorals. Entre elles, la sobreexpressió de les HDACs, que provoca un estat epigenètic aberrant a la cèl•lula. Això ha motivat el desenvolupament del vorinostat, un inhibidor de les HDACs. Els resultats obtinguts demostren el vorinostat és efectiu i selectiu per a les cèl•lules tumorals de MCL. A nivell molecular, el vorinostat en el MCL indueix l’acetilació de les histones de la regió promotora dels gens de les proapoptòtiques de la família de Bcl-2 BH3-only BIM, BMF i NOXA, que són activats transcripcionalment. Totes tres proteïnes, Bmf, Bim i Noxa, cooperen en el procés d’apoptosi. A més, el vorinostat és sinèrgic amb l’agent que mimetitza les BH3-only, ABT-263. En els últims anys, s’ha identificat un gran nombre de cinases, que regulen moltes vies de supervivència i proliferació cel•lulars, que estan específicament activades i sobreexpressades en cèl•lules tumorals. En particular, recentment les cinases associades al receptor de cèl•lules B (BCR) han esdevingut un focus d’atenció important, ja que està activament implicat en la patogènesi de les neoplàsies limfoides. En aquesta tesi, hem analitzat l’efecte anti-tumoral de l’inhibidor multi-cinasa sorafenib en la CLL i el MCL. Els nostres resultats confirmen que el sorafenib indueix apoptosi selectiva en cèl•lules de CLL i de MCL, fins i tot en els casos de més mal pronòstic de la CLL. A nivell molecular, els nostres resultats han demostrat que el sorafenib indueix una desfosforilació ràpida, sostinguda i simultània de les cinases associades al BCR, Syk i de la família Src cinases. En la CLL i el MCL a temps d’incubació molt curts, el sorafenib provoca una disminució traduccional de l’anti-apoptòtica Mcl-1 alhora que de ciclina D1, sobreexpressada en el MCL. Tant Mcl-1 com ciclina D1 participen en l’apoptosi induïda per sorafenib, la disminució de Mcl-1 altera directament els senyals anti-apoptòtics, mentre que el sorafenib, a més de disminuir els nivells de ciclina D1, també allibera Bax del segrestament per part de ciclina D1, finalment activant mecanismes d’apoptosi caspasa-dependents i independents com AIF. El sorafenib també modula les interaccions del microambient amb la CLL i el MCL. En aquest sentit, s’ha demostrat que el sorafenib bloqueja la migració induïda per la quimiocina CXCL12 via inhibició de FAK, una cinasa substrat de Src que regula i promou la invasió. El complex Src-FAK afecta múltiples proteïnes, com ara les del citoesquelet d’actina. En consistència, el sorafenib bloqueja la reorganització del citoesquelet en cèl•lules de MCL estimulades amb CXCL12. Les cèl•lules estromals del microambient dels teixits, com ara el moll d’os i els teixits limfoides secundaris, interaccionen amb el tumor i en promouen el seu creixement i resistència a fàrmacs. En aquest context, s’ha demostrat que, en presència de l’estroma del microambient, les cèl•lules de MCL i CLL esdevenen resistents als agents quimioterapèutics habituals i el sorafenib és capaç de resensibilitzar-les. Tant la proliferació com l’activació del BCR en la CLL són majors en el gangli limfàtic que en sang. En aquest sentit, s’ha demostrat que el sorafenib és més efectiu en cèl•lules de CLL derivades de gangli limfàtic que les respectives derivades de moll d’os i de sang perifèrica. L’estimulació del BCR en la CLL també provoca la secreció de les citocines atraients de cèl•lules accessòries CCL3 i CCL4, que el sorafenib bloqueja amb eficiència. Globalment, els treballs que constitueixen aquesta tesi doctoral suposen una contribució important en el coneixement del mecanisme molecular d’acció del vorinostat i el sorafenib, fàrmacs nous que podrien ser efectius per al tractament d’aquestes dues entitats, el MCL i la CLL. / Mantle cell lymphoma (MCL) and chronic lymphocytic leukemia (CLL) are two incurable B-lymphoid malignancies, thus new therapeutic strategies are required. In the recent years, anti-tumor therapy has focused on pathways specifically altered in cancer cells. Among them, overexpression of histone deacetylases (HDACs) is a common feature. This led to the development of the HDAC inhibitor vorinostat. This thesis has shown that vorinostat could become a new therapeutic approach for MCL. The results show that vorinostat is effective and selective for MCL cells. The molecular mechanism of action of vorinostat involves acetylation of the histones in the gene promoter of the pro-apoptotic BH3-only from Bcl-2 family, BMF, BIM and NOXA, which induces its transcriptional activation. The respective proteins cooperate in the apoptosis induction. Moreover, vorinostat synergizes with the BH3-only mimetic ABT-263 in MCL. Plenty of kinases that have been recognized to regulate survival and proliferation pathways are overexpressed in tumor cells. In this work, we analyzed the anti-tumor effect of sorafenib, a multi-kinase inhibitor approved by the FDA, in CLL and MCL. Sorafenib induces selective apoptosis in CLL and MCL cells, being also effective in poor prognosis cases of CLL. At the molecular level, sorafenib dephosphorylates the B-cell receptor (BCR) associated kinases, specifically Syk and the Src family kinases. In CLL and MCL, sorafenib inhibits Mcl-1 and cyclin D1 translation. Mcl-1 downregulation is directly impairing anti-apoptotic signals. As for cyclin D1, sorafenib releases Bax from cyclin D1 sequestering. Both processes are involved in apoptosis induction, which occurs through caspase-dependent and independent mechanisms. In addition, sorafenib blocks CXCL12-induced migration and actin polymerization via FAK inhibition, a Src kinase substrate that regulates migration. Stromal cells from the microenvironment interact with and promote tumor growth and drug resistance. In this context, MCL and CLL cells become resistant to conventional chemotherapeutic drugs in the presence of stromal microenvironment, which is counteracted by sorafenib. Activation of the BCR and proliferation in CLL cells is higher in the lymph node microenvironments, a setting where sorafenib has been demonstrated to be more effective. BCR stimulation also leads to CCL3 and CLL4 chemoattractant cytokines secretion in CLL, that sorafenib blocks efficiently. Overall, this thesis is an important contribution to the understanding of the molecular mechanism of action of vorinostat and sorafenib, new drugs that might be effective for the treatment of these two entities, MCL and CLL.

Limfomes

Linfomas

Lymphomas

Leucèmia limfocítica crònica

Leucemia linfocítica crónica

Chronic lymphocytic leukaemia

Mecanismes moleculars

Mecanismos moleculares

Molecular mechanisms

Sorafenib

Vorinostat

Ciències de la Salut

616