DIFFERENTIATION OF U-937 MONOCYTES TO MACROPHAGE-LIKE CELLS POLARIZED INTO M1 OR M2 PHENOTYPES ACCORDING TO THEIR SPECIFIC ENVIRONMENT: A STUDY OF MORPHOLOGY, CELL VIABILITY, AND CD MARKERS OF AN IN VITRO MODEL OF HUMAN MACROPHAGES

Abdulhadi, Fatma Husien S.

30 May 2014

No description available.

Microbiology

Immunology

The Role of Stat1 in Retinoic Acid-induced Myelomonocytic Differentiation of Human Leukemia Cells

Dimberg, Anna

January 2002

<p>All-trans retinoic acid (ATRA), a biologically active metabolite of vitamin A, is a powerful inducer of terminal differentiation and growth arrest of several myeloid cell lines <i>in vitro</i>. Although the efficacy of ATRA as an anti-cancer drug has been demonstrated by the successful treatment of acute promyelocytic leukemia (APL), knowledge concerning the molecular mechanisms directing ATRA-induced differentiation and cell cycle arrest of myeloid cells is lacking. Our results show, for the first time, that the complex regulation of cell cycle proteins and myeloid-specific transcription factors induced by ATRA relies on functional Stat1. We found that Stat1 is activated by both tyrosine-701 and serine-727 phosphorylation upon ATRA-induced differentiation of the human monoblastic cell line U-937. Expression of phosphorylation deficient mutants of Stat1 (Stat1Y701F or Stat1S727A) inhibited both ATRA-induced differentiation and cell cycle arrest of U-937 cells, pointing to a requirement of active Stat1 in these processes. </p><p>Detailed analysis of the molecular mechanism of ATRA-induced cell cycle arrest and differentiation showed that the onset of cell cycle arrest was associated with a decrease in c-Myc and cyclin E levels and upregulation of p27^Kip1 and p21^WAF1/CIP1. This was followed by a rapid fall in cyclin A and B and a coordinate dephosphorylation of the retinoblastoma protein (pRb). The inhibition of ATRA-induced cell-cycle arrest by constitutive expression of Stat1Y701F or Stat1S727A was associated with impaired regulation of these cyclins and p27^Kip1, positioning Stat1 activation upstream of these events. To further understand the process of ATRA-induced differentiation, the regulation of myeloid-specific transcription factors was investigated during ATRA-treatment. Notably, ATRA-induced upregulation of Stat2, ICSBP and C/EBP-ε was selectively impaired in sublines expressing Stat1Y701F or Stat1S727A, suggesting an important function of these factors downstream Stat1. Taken together, the work in this thesis clearly demonstrates that Stat1 plays a key role in ATRA-induced terminal differentiation of myeloid cells, through regulation of cell cycle proteins and myeloid-specific transcription factors. </p>

Genetics

Stat1

ATRA

U-937

myeloid

differentiation

cell cycle

growth arrest

Genetik

Clinical genetics

Klinisk genetik

The Role of Stat1 in Retinoic Acid-induced Myelomonocytic Differentiation of Human Leukemia Cells

Dimberg, Anna

January 2002

All-trans retinoic acid (ATRA), a biologically active metabolite of vitamin A, is a powerful inducer of terminal differentiation and growth arrest of several myeloid cell lines in vitro. Although the efficacy of ATRA as an anti-cancer drug has been demonstrated by the successful treatment of acute promyelocytic leukemia (APL), knowledge concerning the molecular mechanisms directing ATRA-induced differentiation and cell cycle arrest of myeloid cells is lacking. Our results show, for the first time, that the complex regulation of cell cycle proteins and myeloid-specific transcription factors induced by ATRA relies on functional Stat1. We found that Stat1 is activated by both tyrosine-701 and serine-727 phosphorylation upon ATRA-induced differentiation of the human monoblastic cell line U-937. Expression of phosphorylation deficient mutants of Stat1 (Stat1Y701F or Stat1S727A) inhibited both ATRA-induced differentiation and cell cycle arrest of U-937 cells, pointing to a requirement of active Stat1 in these processes. Detailed analysis of the molecular mechanism of ATRA-induced cell cycle arrest and differentiation showed that the onset of cell cycle arrest was associated with a decrease in c-Myc and cyclin E levels and upregulation of p27Kip1 and p21WAF1/CIP1. This was followed by a rapid fall in cyclin A and B and a coordinate dephosphorylation of the retinoblastoma protein (pRb). The inhibition of ATRA-induced cell-cycle arrest by constitutive expression of Stat1Y701F or Stat1S727A was associated with impaired regulation of these cyclins and p27Kip1, positioning Stat1 activation upstream of these events. To further understand the process of ATRA-induced differentiation, the regulation of myeloid-specific transcription factors was investigated during ATRA-treatment. Notably, ATRA-induced upregulation of Stat2, ICSBP and C/EBP-ε was selectively impaired in sublines expressing Stat1Y701F or Stat1S727A, suggesting an important function of these factors downstream Stat1. Taken together, the work in this thesis clearly demonstrates that Stat1 plays a key role in ATRA-induced terminal differentiation of myeloid cells, through regulation of cell cycle proteins and myeloid-specific transcription factors.

Genetics

Stat1

ATRA

U-937

myeloid

differentiation

cell cycle

growth arrest

Genetik

Clinical genetics

Klinisk genetik

Mécanismes d'activation de la voie lysosomale durant l'apoptose chimio-induite

Parent, Nicolas

08 1900

L’apoptose est une forme de mort cellulaire essentielle au développement et au maintien de l’homéostase chez les animaux multicellulaires. La machinerie apoptotiq ue requiert la participation des caspases, des protéases conservées dans l’évolution et celle des organelles cytoplasmiques. Les lysosomes subissent des ruptures partielles, labilisation de la membrane lysosomale (LML), qui entraînent l’activation des cathepsines dans le cytoplasme de cellules cancéreuses humaines en apoptose induite par la camptothecin (CPT), incluant les histiocytes humains U-937. Ces modifications lysosomales se manifestent tôt durant l’activation de l’apoptose, concomitamment avec la perméabilisation de la mitochondrie et l’activation des caspases. Une étude protéomique quantitative et comparative a permis d’identifier des changements précoces dans l’expression/localisation de protéines lysosomales de cellules U-937 en apoptose. Lors de deux expériences indépendantes, sur plus de 538 protéines lysosomales identifiées et quantifiées grâce au marquage isobarique iTRAQ et LC-ESIMS/ MS, 18 protéines augmentent et 9 diminuent dans les lysosomes purifiés de cellules en cours d’apoptose comparativement aux cellules contrôles. Les candidats validés par immuno-buvardage et microscopie confocale incluent le stérol-4-alpha-carboxylate 3- déhydrogénase, le prosaposin et la protéine kinase C delta (PKC-d). Des expériences fonctionnelles ont démontrées que la translocation de PKC-d aux lysosomes est requise pour la LML puisque la réduction de son expression par ARN interférents ou l’inhibition de son activité à l’aide du rottlerin empêche la LML lors de l’apoptose induite par la CPT. La translocation de PKC-d aux lysosomes conduit à la phosphorylation et l’activation de la sphingomyelinase acide lysosomale (ASM), et à l’accroissement subséquent du contenu en céramide (CER) à la membrane lysosomale. Cette accumulation de CER endogène aux lysosomes est un évènement critique pour la LML induite par la CPT car l’inhibition de l’activité de PKC-d ou de ASM diminue la formation de CER et la LML.Ces résultats révèlent un nouveau mécanisme par lequel la PKC-d active l’ASM qui conduit à son tour à l’accumulation de CER à la membrane lysosomale et déclenche la LML et l’activation de la voie lysosomale de l’apoptose induite par la CPT. En somme, ce mécanisme confirme l’importance du métabolisme des sphingolipides dans l’activation de la voie lysosomale de l’apoptose. / Apoptosis is a distinct form of regulated cell death which is essential for the development and homeostasis maintenance of multicellular animals. Apoptosis is an evolutionary conserved process involving a specific molecular pathway, known as the caspase cascade, and the different cytoplasmic organelles. A lysosomal pathway, characterized by partial rupture, labilization of lysosomal membranes (LML), and cathepsin activation in the cytoplasm, is evoked during camptothecin-induced apoptosis in human cancer cells, including human histiocytic lymphoma U-937 cells. These lysosomal events begin rapidly and simultaneously with mitochondrial permeabilization and caspase activation within 3 h after drug treatment. Comparative and quantitative proteome analyses were performed to identify early changes in lysosomal protein expression/localization from U-937 cells undergoing apoptosis. In two independent experiments, among a total of more than 538 proteins putatively identified and quantitated by iTRAQ isobaric labelling and LC-ESI-MS/MS, 18 proteins were found to be upregulated and 9 downregulated in lysosomes purified from early apoptotic compared to control cells. Protein expression was validated by Western blotting on enriched lysosome fractions, and protein localization confirmed by fluorescence confocal microscopy of representative protein candidates, whose functions are associated with lysosomal membrane fluidity and dynamics. These include sterol-4-alpha-carboxylate 3-dehydrogenase (NSDHL), prosaposin (PSAP) and protein kinase C delta (PKC-d). Functional experiments demonstrate that PKC-d translocation to lysosomes is required for LML, as silencing its expression with RNA interference or suppressing its activity with the inhibitor rottlerin prevents CPT-induced LLM. PKC-d translocation to lysosomes is associated with lysosomal acidic sphingomyelinase (ASM) phosphorylation and activation, which in turn leads to an increase of ceramide (CER) content at lysosomes. The accumulation of endogenous CER at lysosomes is a critical event for CPT-induced LLM as suppressing PKC-d or ASM activity reduces both CPT-mediated CER generation at lysosomes and CPT-induced LLM.These findings reveal a novel mechanism by which PKC-d mediates ASM phosphorylation/activation and CER accumulation at lysosomes in CPT-induced LLM, rapidly activating the lysosomal pathway of apoptosis after CPT treatment. Taken together, these results confirm the importance of sphingolipid metabolism in the activation of the lysosomal pathway of apoptosis.

Apoptose

Lysosome

PKC-d

Sphingolipides

Céramide

Apoptosis

Membrane

Lipides

U-937

Lipid

Membrane

Ceramide

PKC-d

Sphingolipids

Studies on Human Endogenous Retroviruses (HERVs) with Special Focus on ERV3

Andersson, Ann-Catrin

January 2002

<p>Human endogenous retroviruses (HERVs) represent approximately 7% of the human genome. This investigation was focused on one particular HERV, ERV3, with the main purpose of characterising its gene expression patterns and genomic distribution of ERV3-like sequences. Furthermore, this careful expression study should provide insights into the biological role of HERVs. The impact of HERVs in health and disease is not yet clarified. ERV3 is expressed as three envelope (<i>env</i>) transcripts, of which two also contain a cellular gene, <i>H-plk</i> (human proviral linked <i>Krüppel</i>). ERV3 <i>env</i> expression was mainly investigated at the RNA level. The gene expression of two other HERVs, HERV-K and HERV-E was analysed and compared with ERV3 activity.</p><p>Real-time PCRs were developed and in combination with in situ hybridisation, it was found that ERV3 is expressed in a tissue- and cell-specific way. High levels of ERV3 mRNA (up to six times over Histone3.3) were demonstrated in placenta, sebaceous glands, foetal and adult adrenal glands, brown adipose tissue, corpus luteum, pituitary gland, thymus and testis. In monocytic cells including both normal monocytes and malignant U-937 cells, elevated mRNA levels were observed after retinoic acid (RA)-induced differentiation. ERV3-encoded Env protein was detected in selected cases, one following RA-treatment. In addition, several new ERV3-like sequences were discovered in the human genome. </p><p>ERV3 was found to have conserved open reading frames in contrast to other ERV3-like sequences in the human genome. This suggests that ERV3 may be involved in important cellular processes such as differentiation, cell fusion, immunomodulation and protection against infectious retroviruses. The developed techniques and obtained results will allow further studies of HERV expression to better correlate HERV activity to both normal development and disease. </p>

Genetics

human endogenous retroviruses

HERV

ERV3

expression

in situ hybridisation

real-time PCR

U-937

retinoic acid.

Genetik

Clinical genetics

Klinisk genetik

Signal Transduction in Malignant Cells – Transformation, Activation and Differentiation

Kårehed, Karin

January 2006

<p>All aspects of cell life are regulated by signal transduction mechanisms. This thesis describes the regulatory roles of a few key signal transduction molecules involved in three major biological responses. The studied pathways include platelet derived growth factor (PDGF)-BB induced transformation of murine fibroblasts, interferon (IFN)-γ stimulated monocyte activation and all-trans retinoic acid (ATRA) induced myeloid differentiation. </p><p>We found that intact phosphoinositide 3OH-kinase (PI3K) activity is essential in the signaling pathway that leads to the morphological alterations and migration pattern characteristic of PDGF-BB transformed NIH/sis and NIH/COL1A1 fibroblasts. Furthermore, our data indicated that the small Rho-GTPase, Rac1 is the predominant mediator of these signals downstream of PI3K.</p><p>The study of the IFN-γ induced activation of monocytic U-937 cells showed that upregulation of the high affinity receptor for IgG (FcγRI) is dependent on the coordination of several regulatory events: the PKR-mediated serine 727 phosphorylation of Stat1, the expression of the hematopoietic lineage specific transcription factor PU.I, and the activation of the NFκB pathway.</p><p>ATRA-induced differentiation and cell cycle arrest are impaired in U-937 sublines expressing phosphorylation deficient Stat1 (Stat1Y701F and Stat1S727A). The findings in paper III indicated that the expression pattern of the myeloid specific transcription factors Stat2, ICSBP and c/EBPε was altered in the sublines and that intact Stat1 activation is critical for maintaining the balance of the transcriptional network during ATRA induced terminal differentiation.</p><p>Finally, ATRA-induced differentiation and growth arrest were blocked by treatment with the IKKα/β inhibitor BMS345541 or by ectopic expression of the NFκB super repressor IκBα (S32A/S36A). The fact that IκB(AA) sublines differentiated normally in response to vitamin D3, showed that NFκB inhibition specifically affected ATRA induced responses. Notably we suggest that the activity of the NFκB pathway may interfere with the differentiation process via a direct effect on the RAR/RXR mediated transcription.</p>

Molecular medicine

transformation

PDGF

PI3K

Rho-GTPase

U-937

FcγRI

macrophage

Stat1

PKR

NFκB

ATRA

differentiation

Molekylärmedicin

Studies on Human Endogenous Retroviruses (HERVs) with Special Focus on ERV3

Andersson, Ann-Catrin

January 2002

Human endogenous retroviruses (HERVs) represent approximately 7% of the human genome. This investigation was focused on one particular HERV, ERV3, with the main purpose of characterising its gene expression patterns and genomic distribution of ERV3-like sequences. Furthermore, this careful expression study should provide insights into the biological role of HERVs. The impact of HERVs in health and disease is not yet clarified. ERV3 is expressed as three envelope (env) transcripts, of which two also contain a cellular gene, H-plk (human proviral linked Krüppel). ERV3 env expression was mainly investigated at the RNA level. The gene expression of two other HERVs, HERV-K and HERV-E was analysed and compared with ERV3 activity. Real-time PCRs were developed and in combination with in situ hybridisation, it was found that ERV3 is expressed in a tissue- and cell-specific way. High levels of ERV3 mRNA (up to six times over Histone3.3) were demonstrated in placenta, sebaceous glands, foetal and adult adrenal glands, brown adipose tissue, corpus luteum, pituitary gland, thymus and testis. In monocytic cells including both normal monocytes and malignant U-937 cells, elevated mRNA levels were observed after retinoic acid (RA)-induced differentiation. ERV3-encoded Env protein was detected in selected cases, one following RA-treatment. In addition, several new ERV3-like sequences were discovered in the human genome. ERV3 was found to have conserved open reading frames in contrast to other ERV3-like sequences in the human genome. This suggests that ERV3 may be involved in important cellular processes such as differentiation, cell fusion, immunomodulation and protection against infectious retroviruses. The developed techniques and obtained results will allow further studies of HERV expression to better correlate HERV activity to both normal development and disease.

Genetics

human endogenous retroviruses

HERV

ERV3

expression

in situ hybridisation

real-time PCR

U-937

retinoic acid.

Genetik

Clinical genetics

Klinisk genetik

Signal Transduction in Malignant Cells – Transformation, Activation and Differentiation

Kårehed, Karin

January 2006

All aspects of cell life are regulated by signal transduction mechanisms. This thesis describes the regulatory roles of a few key signal transduction molecules involved in three major biological responses. The studied pathways include platelet derived growth factor (PDGF)-BB induced transformation of murine fibroblasts, interferon (IFN)-γ stimulated monocyte activation and all-trans retinoic acid (ATRA) induced myeloid differentiation. We found that intact phosphoinositide 3OH-kinase (PI3K) activity is essential in the signaling pathway that leads to the morphological alterations and migration pattern characteristic of PDGF-BB transformed NIH/sis and NIH/COL1A1 fibroblasts. Furthermore, our data indicated that the small Rho-GTPase, Rac1 is the predominant mediator of these signals downstream of PI3K. The study of the IFN-γ induced activation of monocytic U-937 cells showed that upregulation of the high affinity receptor for IgG (FcγRI) is dependent on the coordination of several regulatory events: the PKR-mediated serine 727 phosphorylation of Stat1, the expression of the hematopoietic lineage specific transcription factor PU.I, and the activation of the NFκB pathway. ATRA-induced differentiation and cell cycle arrest are impaired in U-937 sublines expressing phosphorylation deficient Stat1 (Stat1Y701F and Stat1S727A). The findings in paper III indicated that the expression pattern of the myeloid specific transcription factors Stat2, ICSBP and c/EBPε was altered in the sublines and that intact Stat1 activation is critical for maintaining the balance of the transcriptional network during ATRA induced terminal differentiation. Finally, ATRA-induced differentiation and growth arrest were blocked by treatment with the IKKα/β inhibitor BMS345541 or by ectopic expression of the NFκB super repressor IκBα (S32A/S36A). The fact that IκB(AA) sublines differentiated normally in response to vitamin D3, showed that NFκB inhibition specifically affected ATRA induced responses. Notably we suggest that the activity of the NFκB pathway may interfere with the differentiation process via a direct effect on the RAR/RXR mediated transcription.

Molecular medicine

transformation

PDGF

PI3K

Rho-GTPase

U-937

FcγRI

macrophage

Stat1

PKR

NFκB

ATRA

differentiation

Molekylärmedicin

Mécanismes d'activation de la voie lysosomale durant l'apoptose chimio-induite

Parent, Nicolas

08 1900

L’apoptose est une forme de mort cellulaire essentielle au développement et au maintien de l’homéostase chez les animaux multicellulaires. La machinerie apoptotiq ue requiert la participation des caspases, des protéases conservées dans l’évolution et celle des organelles cytoplasmiques. Les lysosomes subissent des ruptures partielles, labilisation de la membrane lysosomale (LML), qui entraînent l’activation des cathepsines dans le cytoplasme de cellules cancéreuses humaines en apoptose induite par la camptothecin (CPT), incluant les histiocytes humains U-937. Ces modifications lysosomales se manifestent tôt durant l’activation de l’apoptose, concomitamment avec la perméabilisation de la mitochondrie et l’activation des caspases. Une étude protéomique quantitative et comparative a permis d’identifier des changements précoces dans l’expression/localisation de protéines lysosomales de cellules U-937 en apoptose. Lors de deux expériences indépendantes, sur plus de 538 protéines lysosomales identifiées et quantifiées grâce au marquage isobarique iTRAQ et LC-ESIMS/ MS, 18 protéines augmentent et 9 diminuent dans les lysosomes purifiés de cellules en cours d’apoptose comparativement aux cellules contrôles. Les candidats validés par immuno-buvardage et microscopie confocale incluent le stérol-4-alpha-carboxylate 3- déhydrogénase, le prosaposin et la protéine kinase C delta (PKC-d). Des expériences fonctionnelles ont démontrées que la translocation de PKC-d aux lysosomes est requise pour la LML puisque la réduction de son expression par ARN interférents ou l’inhibition de son activité à l’aide du rottlerin empêche la LML lors de l’apoptose induite par la CPT. La translocation de PKC-d aux lysosomes conduit à la phosphorylation et l’activation de la sphingomyelinase acide lysosomale (ASM), et à l’accroissement subséquent du contenu en céramide (CER) à la membrane lysosomale. Cette accumulation de CER endogène aux lysosomes est un évènement critique pour la LML induite par la CPT car l’inhibition de l’activité de PKC-d ou de ASM diminue la formation de CER et la LML.Ces résultats révèlent un nouveau mécanisme par lequel la PKC-d active l’ASM qui conduit à son tour à l’accumulation de CER à la membrane lysosomale et déclenche la LML et l’activation de la voie lysosomale de l’apoptose induite par la CPT. En somme, ce mécanisme confirme l’importance du métabolisme des sphingolipides dans l’activation de la voie lysosomale de l’apoptose. / Apoptosis is a distinct form of regulated cell death which is essential for the development and homeostasis maintenance of multicellular animals. Apoptosis is an evolutionary conserved process involving a specific molecular pathway, known as the caspase cascade, and the different cytoplasmic organelles. A lysosomal pathway, characterized by partial rupture, labilization of lysosomal membranes (LML), and cathepsin activation in the cytoplasm, is evoked during camptothecin-induced apoptosis in human cancer cells, including human histiocytic lymphoma U-937 cells. These lysosomal events begin rapidly and simultaneously with mitochondrial permeabilization and caspase activation within 3 h after drug treatment. Comparative and quantitative proteome analyses were performed to identify early changes in lysosomal protein expression/localization from U-937 cells undergoing apoptosis. In two independent experiments, among a total of more than 538 proteins putatively identified and quantitated by iTRAQ isobaric labelling and LC-ESI-MS/MS, 18 proteins were found to be upregulated and 9 downregulated in lysosomes purified from early apoptotic compared to control cells. Protein expression was validated by Western blotting on enriched lysosome fractions, and protein localization confirmed by fluorescence confocal microscopy of representative protein candidates, whose functions are associated with lysosomal membrane fluidity and dynamics. These include sterol-4-alpha-carboxylate 3-dehydrogenase (NSDHL), prosaposin (PSAP) and protein kinase C delta (PKC-d). Functional experiments demonstrate that PKC-d translocation to lysosomes is required for LML, as silencing its expression with RNA interference or suppressing its activity with the inhibitor rottlerin prevents CPT-induced LLM. PKC-d translocation to lysosomes is associated with lysosomal acidic sphingomyelinase (ASM) phosphorylation and activation, which in turn leads to an increase of ceramide (CER) content at lysosomes. The accumulation of endogenous CER at lysosomes is a critical event for CPT-induced LLM as suppressing PKC-d or ASM activity reduces both CPT-mediated CER generation at lysosomes and CPT-induced LLM.These findings reveal a novel mechanism by which PKC-d mediates ASM phosphorylation/activation and CER accumulation at lysosomes in CPT-induced LLM, rapidly activating the lysosomal pathway of apoptosis after CPT treatment. Taken together, these results confirm the importance of sphingolipid metabolism in the activation of the lysosomal pathway of apoptosis.

Apoptose

Lysosome

PKC-d

Sphingolipides

Céramide

Apoptosis

Membrane

Lipides

U-937

Lipid

Membrane

Ceramide

PKC-d

Sphingolipids