Relevance physiopathologique des productions cytokiniques dans la Leucémie Lymphoïde Chronique / Cytokines Production Relevance in Chronic Lymphocytic Leukemia Physiopathology

Mhibik, Maissa

19 March 2018

Les lymphocytes B régulent la réponse immunitaire par la sécrétion de facteurs proinflammatoires ou immunosuppresseurs. Dans la Leucémie Lymphoïde Chronique (LLC),une sous-population de lymphocytes B CD5⁺ présente des propriétés immunosuppressives qui l’apparente aux lymphocytes B régulateurs notamment par la production d’IL-10. La survie des cellules leucémiques est, elle, associée à la réponse antigénique et à la production de cytokines dont l’IL-6. L’objectif de ce travail a été de caractériser dans la pathologie les populations produisant les cytokines pro-survie ou immunorégulatrices et d’analyser la relevance fonctionnelle de leur sécrétion. Nous avons identifié des sous-populations de cellules B leucémiques exprimant trois facteurs immunorégulateurs l’IL-10, le TGFβ1 et pour la première fois le facteur de transcription FOXP3, La proportion augmentée de cellules exprimant l’IL10 est associée à une diminution des cellules exprimant l’IL6. De manière importante, ce travail a identifié une boucle autocrine de stimulation de l’activité métabolique des cellules par l’IL10. La cytokine en se fixant à son récepteur permet l’activation des facteurs STAT3 et induit l’expression à la fois de protéines anti- apoptotiques de la famille Bcl2 mais surtout sa propre expression. Un blocage de cette boucle au niveau du récepteur à l’IL10 suspend l’avantage de survie des cellules tumorales. L’IL-6 ne déclenche pas ces mécanismes de maintien des cellules de LLC. Ce travail montre qu’en plus de son rôle sur les cellules du microenvironnement tumoral, l’IL-10 participe au maintien autocrine de la sous-population immunorégulatrice dans la LLC. / B cells produce pro-inflammatory or immunosuppressive factors to modulate the immuneresponse. In Chronic lymphocytic leukemia (CLL), a subset of the tumor lymphocytes produces IL10 and share immunoregulatory functions with regulatory B cells. CLL cell ssurvival is driven by antigenic response and pro-survival cytokines such as IL6. This project aimed at deciphering the cytokines profile of CLL subsets and analyzing their functional relevance. We identified immunoregulatory subsets producing IL-10, TGFβ1 and for the firsttime FOXP3. In patients, the increased proportion of cells expressing IL10 was correlated with decrease in IL6⁺ cells. Importantly we described an autocrine survival loop driven by IL10 in these cells. IL10 triggering led to STAT3 activation, induction of active pro-survival factors altogether with IL10 self-induction. Interrupting this loop with a blocking ab against IL10R prevented survival of the cells. IL6 did not manage such mechanisms. In conclusion,this work demonstrates that IL10 is an important mediator in CLL; the cytokine alters immune recognition of the tumor cells and sustains leukemic cells survival via the autocrine loop.

Il-10

STAT3

Régulation autocrine

Survie cellulaire

B régulateurs

FOXP3

Autocrine Regulation

Cell Survival

Impact of autocrine factors on physiology and productivity in Trichoplusia ni serum-free cultures

Eriksson, Ulrika

January 2005

<p>The aim of this study was to increase the understanding of the mechanisms regulating cell proliferation and recombinant protein production in serum-free cultures of Trichoplusia ni (T. ni) insect cells.</p><p>Conditioned medium (CM) was shown to contain both stimulatory and inhibitory factors (CM factors) influencing cell growth. Metalloproteinase (MP) activity was the major factor responsible for the growth stimulating effect of CM as shown by using the specific MP inhibitor DL-thiorphan. MPs may exist in several different molecular mass forms due to autoproteolysis. Although the main band of the MP was determined to be around 48 kDa, precursor forms above 48 kDa as well as autocatalytic degradation products below the main band could be observed. It is not clear whether all forms of the MP or just the main band is involved in the growth regulation. Further, a proteinase inhibitor could be identified in the inhibitory fraction. Thus, we speculate that the proteinase inhibitor may be part of an autocrine system regulating cell proliferation.</p><p>Analysis of the cell cycle phase distribution revealed a high proportion of cells in the G1 (80-90 %) and a low proportion of cells in the S and G2/M phases (10-20 %) during the whole culture, indicating that S and G2/M are short relative to G1. After inoculation, a drastic decrease in the S phase population together with a simultaneous increase of cells in G1 and G2/M could be observed as a lagphase on the growth curve and this may be interpreted as a temporary replication stop. When the cells were released from the initial arrest, the S phase population gradually increased again. This was initiated earlier in CM-supplemented cultures, and agrees with the earlier increase in cell concentration. Thus, these data suggests a correlation between CM factors and the cell cycle dynamics.</p><p>In cultures supplied with CM, a clear positive effect on specific productivity was observed, with a 30 % increase in per cell productivity. The specific productivity was also maintained at a high level much longer time than in fresh-medium cultures. The positive effect observed after 20 h coincided with the time a stimulatory effect on cell growth first was seen. Thus, the productivity may be determined by the proliferation potential of the culture. A consequence of this would be that the secreted MP indirectly affects productivity.</p><p>Finally, the yeast extract from Express Five SFM contains factors up to 35 kDa which are essential for T. ni cell growth. The optimal concentration was determined to be 2.5-fold that in normal medium, while higher concentrations were inhibitory. However although vital, they were not solely responsible for the growth-enhancing effect, as some other, more general, component present in yeast extract was needed for proliferation as well.</p>

Biotechnology

Trichoplusia ni

High Five

insect cells

BEVS

serum-free medium

yeast extract

conditioned medium

autocrine regulation of proliferation

growth factors

cell cycle

metalloproteinase

specific productivity

Bioteknik

Bioengineering

Bioteknik

Impact of autocrine factors on physiology and productivity in Trichoplusia ni serum-free cultures

Eriksson, Ulrika

January 2005

The aim of this study was to increase the understanding of the mechanisms regulating cell proliferation and recombinant protein production in serum-free cultures of Trichoplusia ni (T. ni) insect cells. Conditioned medium (CM) was shown to contain both stimulatory and inhibitory factors (CM factors) influencing cell growth. Metalloproteinase (MP) activity was the major factor responsible for the growth stimulating effect of CM as shown by using the specific MP inhibitor DL-thiorphan. MPs may exist in several different molecular mass forms due to autoproteolysis. Although the main band of the MP was determined to be around 48 kDa, precursor forms above 48 kDa as well as autocatalytic degradation products below the main band could be observed. It is not clear whether all forms of the MP or just the main band is involved in the growth regulation. Further, a proteinase inhibitor could be identified in the inhibitory fraction. Thus, we speculate that the proteinase inhibitor may be part of an autocrine system regulating cell proliferation. Analysis of the cell cycle phase distribution revealed a high proportion of cells in the G1 (80-90 %) and a low proportion of cells in the S and G2/M phases (10-20 %) during the whole culture, indicating that S and G2/M are short relative to G1. After inoculation, a drastic decrease in the S phase population together with a simultaneous increase of cells in G1 and G2/M could be observed as a lagphase on the growth curve and this may be interpreted as a temporary replication stop. When the cells were released from the initial arrest, the S phase population gradually increased again. This was initiated earlier in CM-supplemented cultures, and agrees with the earlier increase in cell concentration. Thus, these data suggests a correlation between CM factors and the cell cycle dynamics. In cultures supplied with CM, a clear positive effect on specific productivity was observed, with a 30 % increase in per cell productivity. The specific productivity was also maintained at a high level much longer time than in fresh-medium cultures. The positive effect observed after 20 h coincided with the time a stimulatory effect on cell growth first was seen. Thus, the productivity may be determined by the proliferation potential of the culture. A consequence of this would be that the secreted MP indirectly affects productivity. Finally, the yeast extract from Express Five SFM contains factors up to 35 kDa which are essential for T. ni cell growth. The optimal concentration was determined to be 2.5-fold that in normal medium, while higher concentrations were inhibitory. However although vital, they were not solely responsible for the growth-enhancing effect, as some other, more general, component present in yeast extract was needed for proliferation as well. / <p>QC 20101129</p>

Biotechnology

Trichoplusia ni

High Five

insect cells

BEVS

serum-free medium

yeast extract

conditioned medium

autocrine regulation of proliferation

growth factors

cell cycle

metalloproteinase

specific productivity

Bioteknik

Industrial Biotechnology

Industriell bioteknik