The role of CCL5 (RANTES) in the immune response against Mycobacterium tuberculosis in the guinea pig

Skwor, Troy Arthur

17 February 2005

Tuberculosis is the second leading cause of morbidity and mortality worldwide due to an infectious disease. Development of a new tuberculosis (TB) vaccine would be facilitated by a better understanding of the mechanisms of protection induced by the current TB vaccine, Mycobacterium bovis BCG. Recombinant guinea pig (rgp)CCL5 and anti-rgpCCL5 were developed and characterized. The biological activity of rgpCCL5 was determined in a chemotaxis assay using T lymphocytes and pleural exudate cells. The specificity of rabbit anti-rgpCCL5 polyclonal antibody was confirmed by Western blot. RgpCCL5 was used to stimulate alveolar and peritoneal macrophages in vitro. and cytokine/chemokine gene expression was evaluated using real-time PCR. RgpCCL5 stimulated TNFα, IL-1β, CCL2, and CXCL8 mRNA expression and TNFα protein production (as assessed in the L929 cell bioassay) in macrophages. The effect of BCG-vaccination on CCL5 expression and production in leukocytes infected with M. tuberculosis was examined in vitro and in vivo. Polyclonal anti-rgpCCL5 was used to develop an ELISA assay to quantify gpCCL5 protein levels, and real-time PCR was used to detect CCL5 mRNA. Leukocytes isolated from BCG-vaccinated guinea pigs and infected in vitro with virulent M. tuberculosis demonstrated significantly elevated gpCCL5 mRNA and protein compared to cells from naive animals. The response of gpCCL5 to M. tuberculosis in vivo was studied in tuberculous pleural effusions, where peak levels of CCL5 mRNA and protein were reached at day 4 post-induction. Disease severity, cellular differentiation, histology, and cytokine/chemokine mRNA levels in pleural cells and granulomas were analyzed on day 4 in guinea pigs induced with tuberculous pleurisy and treated with either rgpCCL5 or anti-rgpCCL5 by direct intra-pleural injection. In these studies, neutralizing CCL5 resulted in reduced macrophage accumulation, diminished levels of IFNγ, TNFα, and CCL5 mRNA in pleural effusion cells, and reduced spontaneous lymphocyte proliferation. Together these studies suggest an important role for gpCCL5 in activating leukocytes during M. tuberculosis infection.

RANTES

chemokines

Mycobacterium tuberculosis

cytokines

pleurisy

macrophages

A system for the intracellular generation of triple helix-forming oligonucleotides (TFOs) and the sequence-specific inhibition of human MCP-1 gene expression

Kautz, Kordula.

Unknown Date

University, Diss., 2006--Frankfurt (Main). / Erscheinungsjahr an der Hauptitelstelle: 2005.

"A system for the intracellular generation of triple helix-forming oligonucleotides (TFOs) and the sequence-specific inhibition of human MCP-1 gene expression"

Kautz, Kordula

Unknown Date

Univ., Diss., 2006--Frankfurt (Main) / Zsfassung in engl. und dt. Sprache

Mediadores envolvidos na resposta febril induzida pela RANTES / Mediators involved in the febrile response induced by RANTES

Machado, Renes de Resende

12 February 2009

Em estudo anterior, observamos que o Met-RANTES, antagonista de receptores CCR1 e CCR5 para quimiocinas, injetado pela via endovenosa (i.v.) reduziu a resposta febril induzida pelo lipopolissacarídeo (LPS) de E. coli, demonstrando o envolvimento da quimiocina RANTES (Regulada sob ativação, expressa e secretada por células T normais) nesta resposta. Além disso, a injeção intrahipotalâmica (i.h.) da RANTES dose-dependentemente aumentou a temperatura corporal de ratos, o qual foi caracterizado como febre, pois foi acompanhada de redução da temperatura da cauda, uma resposta termorregulatória para retenção de calor. Observamos também, que a RANTES aumenta a concentração de prostaglandinas no fluido cerebroespinhal (CSF) e que a febre por ela induzida é sensível aos inibidores não-seletivos para as ciclooxigenases e seletivo para COX-2 (Machado et al., 2007). No presente estudo, aprofundamos a investigação sobre os mediadores, incluindo as prostaglandinas, envolvidos na resposta febril induzida pela RANTES. Verificamos que o paracetamol reduziu, enquanto o diclofenaco de sódio aboliu a resposta febril induzida pela RANTES. Ainda, a injeção i.h. da RANTES promoveu significativa expressão do RNAm para COX-2 no hipotálamo, confirmando ser a COX-2 a enzima responsável pela síntese de prostaglandinas envolvidas no efeito pirogênico desta quimiocina. Através da administração de corante in situ e de cortes histológicos, pode-se averiguar o trajeto da cânula bem como a profundidade alcançada pela agulha durante a injeção na área pré-óptica hipotalâmica anterior (AH/POA). Padronizamos a dose do Met-RANTES (i.h.) que não seria capaz de alterar a temperatura retal dos animais. Posteriormente, avaliou-se o efeito de diferentes doses do Met-RANTES, administrado via intrahipotalâmica, na resposta febril induzida pelo LPS ou pela RANTES. Entretanto, nas doses administradas o pré-tratamento com o antagonista não foi capaz de reduzir a febre induzida por ambos os estímulos. Contudo, o Met-RANTES (i.v.) reduziu a febre induzida pelo TNF-alfa (i.h.), reproduzindo resultados anteriores. O pré-tratamento com Met-RANTES (i.v.) não modificou a febre induzida pela injeção central de interleucina (IL)-6, fator liberador de corticotropina (CRF) e bradicinina (BK). Adicionalmente, a injeção de LPS (i.v.) ou TNF-alfa (i.h.) elevou a concentração da RANTES no tecido hipotalâmico. Antalarmina (antagonista de receptores CRF1) e alfa-helical CRF9-41 (antagonista de receptores CRF1 e CRF2) que reduziram a febre induzida pelo CRF, não alteraram a febre induzida pela administração i.h. da RANTES. O antagonista de receptores B1 (DALBK) que reduziu a segunda fase da resposta febril induzida pela BK, não foi capaz de modificar a febre induzida pela RANTES. Da mesma forma, o antagonista de receptores B2 (Hoe-140) que reduziu a resposta febril induzida pela BK durante todo o período de experimentação, não modificou a febre promovida pela RANTES. Por outro lado, verificamos que o anticorpo anti-IL-6 administrado i.h. reduziu a febre induzida pela IL-6 e pela RANTES. Ainda, a injeção de LPS (i.v.) ou RANTES (i.h.) elevou a concentração de IL-6 no CSF, mas não de IL-1 e TNF-. A RANTES promoveu ativação do fator nuclear-kB (NF-kB) e aumentou a expressão do RNAm para as citocinas IL-1beta, TNF-alfa e IL-6 no hipotálamo dos animais. O pré-tratamento com Met-RANTES reduziu, na 2,5 e 6 h, a neutrofilia induzida pelo LPS. Em síntese, nossos resultados demonstram que durante a resposta febril induzida pelo LPS, este induz a síntese de TNF-alfa o qual promove a síntese da quimiocina RANTES que, ativando os receptores CCR1 e CCR5 promove a transmigração do NF-kB do citoplasma para o núcleo e a subseqüente síntese de IL-6 e de COX-2, esta última, a responsável pela síntese de prostaglandina E2 (PGE2), um dos mediadores finais da resposta febril induzida pelo LPS. Além disso, a RANTES parece ser um mediador da resposta de fase aguda, uma vez que, promove dois sinais importantes desta resposta, febre e neutrofilia. / We showed before that Met-RANTES, CCR1 and CCR5 receptor antagonist, intravenously injected (i.v.) reduced fever induced by lipopolysaccharide (LPS, E. coli), demonstrating the involvement of RANTES (Regulated on activation, normal T cells expressed and secreted) in this response. Also, intrahypothalamic (i.h.) injection of RANTES dose-dependently increased body temperature of rats, this increase was characterized as fever, because it was accompanied of a reduction in the tail skin temperature, a thermoregulatory response for heat retention. We also verified that RANTES increased the concentration of prostaglandin (PG)E2 in the cerebrospinal fluid (CSF), which was sensible to non-selective and selective blockers to cyclooxygenase (COX)-2 (Machado et al., 2007). In the present study, it was investigated which others mediators, including prostaglandins, are involved in the RANTES-induced fever. The effect of paracetamol and sodium diclofenac on fever induced by RANTES was also investigated. Paracetamol reduced, while sodium diclofenac abolished the RANTES-induced fever. The intrahypothalamic (i.h.) RANTES injection promoted a significant COX-2 mRNA expression in the hypothalamus, confirming the role of the COX-2 enzyme in the synthesis of prostaglandin involved in the pyrogenic effect of this chemokine. Through administration of dye in situ and histological analyses, we confirmed that the injection in the preoptic area of the anterior hypothalamus (AH/POA) was correct. Subsequently, we evaluated the effect of different doses of Met-RANTES (i.h.) in the fever induced by both LPS and RANTES. Centrally injected, Met-RANTES did not modify the fever induced by LPS or RANTES. On the other hand, Met-RANTES (i.v.) reduced TNF-alpha-induced fever, but did not modify the fever induced by interleukin (IL)-6, corticotrophin releasing factor (CRF) and bradykinin (BK). Additionally, the injection of LPS (i.v.) or TNF-alpha (i.h.) increased RANTES concentration in the hypothalamus. Antalarmin (a CRF receptor 1 antagonist) and alpha-helical CRF9-41 (CRF 1 and 2 receptor antagonist) that reduced CRF-induced fever did not modify the fever induced by RANTES (i.h.). DALBK (bradykinin B1 receptor antagonist) that reduced the second phase of BK-induced fever did not modify RANTES-induced fever. In the same way, Hoe-140 (bradykinin B2 receptor antagonist) that reduced the fever induced by BK during the whole period of observation, did not modify RANTES-induced fever. On the other hand, we verified that anti-rat IL-6 antibody (i.h.) reduced the fever induced by both IL-6 and RANTES. In addition, the administration of LPS (i.v.) or RANTES (i.h.) increased the CSF IL-6 concentration, but not of IL-1 and TNF-. RANTES promoted nuclear factor-kB (NF-kB) activation and increased IL-1beta, TNF-alpha and IL-6 mRNA expression in the hypothalamus. Pretreatment of the animals with Met-RANTES reduced the LPS-induced neutrophilia. In synthesis, our results suggest that in the fever induced by LPS, RANTES induces TNF- synthesis, which promotes the synthesis of RANTES that, activating CCR1/CCR5 receptors, promotes NF-kB transmigration of cytoplasm to the nucleus and subsequent synthesis of IL-6 and COX-2. The latter, in turn, is responsible by (PGE2) synthesis, one of the final mediators of the febrile response induced by LPS. Moreover, RANTES seem to be a mediator of the acute phase response since it promoted two important signs of this response, fever and neutrophilia.

citocinas

Cytokines

febre

Fever

lipopolissacarídeo

Lipopolysaccharide

Prostaglandin E2

prostaglandina E2

RANTES/CCL5

RANTES/CCL5

Mediadores envolvidos na resposta febril induzida pela RANTES / Mediators involved in the febrile response induced by RANTES

Renes de Resende Machado

12 February 2009

Em estudo anterior, observamos que o Met-RANTES, antagonista de receptores CCR1 e CCR5 para quimiocinas, injetado pela via endovenosa (i.v.) reduziu a resposta febril induzida pelo lipopolissacarídeo (LPS) de E. coli, demonstrando o envolvimento da quimiocina RANTES (Regulada sob ativação, expressa e secretada por células T normais) nesta resposta. Além disso, a injeção intrahipotalâmica (i.h.) da RANTES dose-dependentemente aumentou a temperatura corporal de ratos, o qual foi caracterizado como febre, pois foi acompanhada de redução da temperatura da cauda, uma resposta termorregulatória para retenção de calor. Observamos também, que a RANTES aumenta a concentração de prostaglandinas no fluido cerebroespinhal (CSF) e que a febre por ela induzida é sensível aos inibidores não-seletivos para as ciclooxigenases e seletivo para COX-2 (Machado et al., 2007). No presente estudo, aprofundamos a investigação sobre os mediadores, incluindo as prostaglandinas, envolvidos na resposta febril induzida pela RANTES. Verificamos que o paracetamol reduziu, enquanto o diclofenaco de sódio aboliu a resposta febril induzida pela RANTES. Ainda, a injeção i.h. da RANTES promoveu significativa expressão do RNAm para COX-2 no hipotálamo, confirmando ser a COX-2 a enzima responsável pela síntese de prostaglandinas envolvidas no efeito pirogênico desta quimiocina. Através da administração de corante in situ e de cortes histológicos, pode-se averiguar o trajeto da cânula bem como a profundidade alcançada pela agulha durante a injeção na área pré-óptica hipotalâmica anterior (AH/POA). Padronizamos a dose do Met-RANTES (i.h.) que não seria capaz de alterar a temperatura retal dos animais. Posteriormente, avaliou-se o efeito de diferentes doses do Met-RANTES, administrado via intrahipotalâmica, na resposta febril induzida pelo LPS ou pela RANTES. Entretanto, nas doses administradas o pré-tratamento com o antagonista não foi capaz de reduzir a febre induzida por ambos os estímulos. Contudo, o Met-RANTES (i.v.) reduziu a febre induzida pelo TNF-alfa (i.h.), reproduzindo resultados anteriores. O pré-tratamento com Met-RANTES (i.v.) não modificou a febre induzida pela injeção central de interleucina (IL)-6, fator liberador de corticotropina (CRF) e bradicinina (BK). Adicionalmente, a injeção de LPS (i.v.) ou TNF-alfa (i.h.) elevou a concentração da RANTES no tecido hipotalâmico. Antalarmina (antagonista de receptores CRF1) e alfa-helical CRF9-41 (antagonista de receptores CRF1 e CRF2) que reduziram a febre induzida pelo CRF, não alteraram a febre induzida pela administração i.h. da RANTES. O antagonista de receptores B1 (DALBK) que reduziu a segunda fase da resposta febril induzida pela BK, não foi capaz de modificar a febre induzida pela RANTES. Da mesma forma, o antagonista de receptores B2 (Hoe-140) que reduziu a resposta febril induzida pela BK durante todo o período de experimentação, não modificou a febre promovida pela RANTES. Por outro lado, verificamos que o anticorpo anti-IL-6 administrado i.h. reduziu a febre induzida pela IL-6 e pela RANTES. Ainda, a injeção de LPS (i.v.) ou RANTES (i.h.) elevou a concentração de IL-6 no CSF, mas não de IL-1 e TNF-. A RANTES promoveu ativação do fator nuclear-kB (NF-kB) e aumentou a expressão do RNAm para as citocinas IL-1beta, TNF-alfa e IL-6 no hipotálamo dos animais. O pré-tratamento com Met-RANTES reduziu, na 2,5 e 6 h, a neutrofilia induzida pelo LPS. Em síntese, nossos resultados demonstram que durante a resposta febril induzida pelo LPS, este induz a síntese de TNF-alfa o qual promove a síntese da quimiocina RANTES que, ativando os receptores CCR1 e CCR5 promove a transmigração do NF-kB do citoplasma para o núcleo e a subseqüente síntese de IL-6 e de COX-2, esta última, a responsável pela síntese de prostaglandina E2 (PGE2), um dos mediadores finais da resposta febril induzida pelo LPS. Além disso, a RANTES parece ser um mediador da resposta de fase aguda, uma vez que, promove dois sinais importantes desta resposta, febre e neutrofilia. / We showed before that Met-RANTES, CCR1 and CCR5 receptor antagonist, intravenously injected (i.v.) reduced fever induced by lipopolysaccharide (LPS, E. coli), demonstrating the involvement of RANTES (Regulated on activation, normal T cells expressed and secreted) in this response. Also, intrahypothalamic (i.h.) injection of RANTES dose-dependently increased body temperature of rats, this increase was characterized as fever, because it was accompanied of a reduction in the tail skin temperature, a thermoregulatory response for heat retention. We also verified that RANTES increased the concentration of prostaglandin (PG)E2 in the cerebrospinal fluid (CSF), which was sensible to non-selective and selective blockers to cyclooxygenase (COX)-2 (Machado et al., 2007). In the present study, it was investigated which others mediators, including prostaglandins, are involved in the RANTES-induced fever. The effect of paracetamol and sodium diclofenac on fever induced by RANTES was also investigated. Paracetamol reduced, while sodium diclofenac abolished the RANTES-induced fever. The intrahypothalamic (i.h.) RANTES injection promoted a significant COX-2 mRNA expression in the hypothalamus, confirming the role of the COX-2 enzyme in the synthesis of prostaglandin involved in the pyrogenic effect of this chemokine. Through administration of dye in situ and histological analyses, we confirmed that the injection in the preoptic area of the anterior hypothalamus (AH/POA) was correct. Subsequently, we evaluated the effect of different doses of Met-RANTES (i.h.) in the fever induced by both LPS and RANTES. Centrally injected, Met-RANTES did not modify the fever induced by LPS or RANTES. On the other hand, Met-RANTES (i.v.) reduced TNF-alpha-induced fever, but did not modify the fever induced by interleukin (IL)-6, corticotrophin releasing factor (CRF) and bradykinin (BK). Additionally, the injection of LPS (i.v.) or TNF-alpha (i.h.) increased RANTES concentration in the hypothalamus. Antalarmin (a CRF receptor 1 antagonist) and alpha-helical CRF9-41 (CRF 1 and 2 receptor antagonist) that reduced CRF-induced fever did not modify the fever induced by RANTES (i.h.). DALBK (bradykinin B1 receptor antagonist) that reduced the second phase of BK-induced fever did not modify RANTES-induced fever. In the same way, Hoe-140 (bradykinin B2 receptor antagonist) that reduced the fever induced by BK during the whole period of observation, did not modify RANTES-induced fever. On the other hand, we verified that anti-rat IL-6 antibody (i.h.) reduced the fever induced by both IL-6 and RANTES. In addition, the administration of LPS (i.v.) or RANTES (i.h.) increased the CSF IL-6 concentration, but not of IL-1 and TNF-. RANTES promoted nuclear factor-kB (NF-kB) activation and increased IL-1beta, TNF-alpha and IL-6 mRNA expression in the hypothalamus. Pretreatment of the animals with Met-RANTES reduced the LPS-induced neutrophilia. In synthesis, our results suggest that in the fever induced by LPS, RANTES induces TNF- synthesis, which promotes the synthesis of RANTES that, activating CCR1/CCR5 receptors, promotes NF-kB transmigration of cytoplasm to the nucleus and subsequent synthesis of IL-6 and COX-2. The latter, in turn, is responsible by (PGE2) synthesis, one of the final mediators of the febrile response induced by LPS. Moreover, RANTES seem to be a mediator of the acute phase response since it promoted two important signs of this response, fever and neutrophilia.

citocinas

febre

lipopolissacarídeo

prostaglandina E2

RANTES/CCL5

Cytokines

Fever

Lipopolysaccharide

Prostaglandin E2

RANTES/CCL5

Einfluss der Langzeittherapie mit dem Endocannabinoid-Rezeptorblocker Rimonabant auf Thrombozytenaktivierung und proinflammatorische Chemokine bei Diabetes / Influence of long-term therapy with cannabinoid receptor-1 antagonist Rimonabant on thrombocytes and proinflammatoric chemokines in diabetes

Neumüller, Jutta

January 2010

Die Volkskrankheit Adipositas zieht eine Reihe von kostenträchtigen Komplikationen mit sich wie z. B. Diabetes mellitus Typ 2 und kardiovaskuläre Erkrankungen. Der Endocannabinoidblocker Rimonabant ist hierbei ein viel versprechendes Medikament, mit dem nicht nur die Adipositas an sich, sondern zusätzlich auch ihre weit reichenden Komplikationen im kardiovaskulären Bereich reduziert werden können. Im Rahmen der vorliegenden Arbeit konnten an Hand 6 Monate alter diabetischer Ratten, welche für 10 Wochen mit Rimonabant behandelt wurden, aufgezeigt werden, dass Rimonabant auf verschiedenste Weise die Initialphase der Atherogenese positiv beeinflusst. Zum einen konnte die Anzahl der zirkulierenden Monozyten signifikant vermindert und auch die für die initiale Rekrutierung von Thrombozyten und Monozyten wichtigen Chemokine RANTES und MCP-1 reduziert werden. Zum anderen zeigten sich positive Effekte auf das Lipidprofil der Probanden. Ein besonderes Augenmerk lag auf dem Aktivitätszustand der Thrombozyten: Mit Rimonabant wurde sowohl die thrombozytäre Aktivierung minimiert als auch ein positiver Einfluss auf die Thrombozytenadhäsion und -aggregation bestätigt. Folglich reduziert Rimonabant das kardiovaskuläre Risiko, indem es die pro-inflammatorischen und pro-atherosklerotischen Kaskaden vermindert. / 6 month old obese Zucker rats were fed with cannabinoid receptor-1 antagonist rimonabant for 10 weeks. We demonstrate positive modulation of circulating monocyte numbers, reduced platelet activation and lower RANTES and MCP-1 levels by Rimonbant in Zucker rats. This may potentially contribute to a reduction of cardiovascular risk.

Diabetes mellitus

Chemokine

RANTES

Thrombozyt

Fettsucht

Endocannabinoide

ddc:610

Evaluation of RANTES analogue expression in Nicotiana benthamiana and Lycopersicon esculentum and their topical microbicidal activity

Mawela, Kedibone Gloria

January 2013

The HIV/AIDS pandemic has dramatically altered patterns of morbidity and mortality in sub-Saharan Africa during the last two decades. In the absence of HIV vaccine, microbicides may offer viable option for protection against HIV infection. Microbicides are products that are applied topically inside the vagina or rectum that act to impede transmission of HIV and other sexually transmitted diseases. Small human chemokines such as RANTES (regulated upon activation, normal T cell expressed and secreted) are currently been investigated as microbicides candidates. A number of N-terminally modified RANTES analogues such as 5P12 and 6P4 with a much higher antiviral potency have been developed and they have strong potential for use as microbicides. Since plants offer an alternative option for cost effective production of protein therapeutics, we evaluated the feasibility of expressing 5P12 and 6P4 in Nicotiana benthamiana species. 5P12 is considered the most promising candidate for use in the microbicide pipeline because it inhibits HIV infection through cellular receptor antagonism. Hence its feasibility of expression was also evaluated in Lycopersicon esculentum (tomato). The two analogues were transiently expressed in the selected plant species via agrobacterium-mediated transfection. For expression in N. benthamiana, two different vectors (pTRA and MagnICON) were used to deliver the two analogues for transient expression. About 6-8 weeks-old N. benthamiana plants were agroinfiltrated via needle injection and vacuum infiltration methods and targeted to four subcellular compartments viz: apoplast, chloroplast, cytosol and endoplasmic reticulum (ER). The agroinfiltrated leaves were replanted, grown in a tissue culture laboratory and harvested after different periods. For expression in L. esculentum, the MagnICON constructs were used to deliver the 5P12 gene into four different developmental stages of tomato fruits viz: mature green (MG), breaker (B), pink (P) and ripe (R) via needle injection. The agroinjected tomato fruits were incubated in a dark cupboard and harvested after different periods. xiii Proteins were extracted from the harvested material and evaluated for 5P12 and 6P4 expression. ELISA results showed expression of 5P12 and 6P4 in N. benthamiana leaves which was detectable at 3-9 days post infiltration (dpi). Similar results were obtained for 5P12 and 6P4, consequently only results for 5P12 are reported. The vacuum infiltrated leaves of both pTRA and MagnICON constructs led to higher yields than the needle injected leaves. The highest yields were obtained with the MagnICON constructs. The highest 5P12 expression level of 603 μg/kg fresh weight leaf tissues (~0.024% TSP) was obtained in the apoplast at 9 dpi. The pTRA constructs had the highest expression levels of 0.63μg/kg FW in the cytosol at 3 dpi. 5P12 was also detectable at 3-9 dpi in L. esculentum, based on ELISA results. The highest 5P12 expression of 23.56 μg/kg FW and pH 4.75 tissues was obtained at the MG stage in the apoplast at 9 dpi. Western blot analysis confirmed the size of plantmade 5P12. Moreover, the plant extracts had anti-viral activity and were not toxic to TZM-bl cells. Our results show that the RANTES can be made in both N. benthamiana and L. esculentum and that the levels are not different from other systems reported previously. Furthermore, this is the first report that a chemokine has been expressed in plants. The quantities expressed were low making the commercial development of a microbicide from these species impractical. However, production of bulky leaf material may enhance the quantities. / Thesis (PhD)--University of Pretoria, 2013. / gm2013 / Paraclinical Sciences / unrestricted

HIV and AIDS pandemic

RANTES analogues

Nicotiana benthamiana species

UCTD

Differenzielle Expression proatherogener Zellmarker auf Monozytensubpopulationen bei Patienten mit stabiler koronarer Herzkrankheit / Differential expression of proatherogenic cell markers on monocyte subpopulations of patients with stable coronary artery disease

Kuschicke, Hendrik

30 March 2017

No description available.

610

coronary artery disease

monocyte subsets

monocyte subpopulations

MPA

OPN

CCR5

CCL5

RANTES

Kardiologie (PPN619875755)

Modulace chemokinového profilu lidských makrofágů a renálního epitelu / Modulation of human macrophages and renal epitelium chemokine profile

Pidhorodetská, Halyna

January 2018

One of the main effects of pro-inflammatory cytokines is the induction of chemokines and the expression of adhesive molecules that regulate the migration of immune cells to the center of the damage. Chemoattractant gradient also provides a physiological delivery of cells to tissues and lymphatic organs under normal circumstances. Chemokines are chemotactic cytokines that form a very large and diverse group of secreted proteins that have many functions both in processes that maintain homeostasis but also in inflammatory states. Production of some chemokines also has a major effect on graft rejection. Further understanding of the mechanisms involved in the acute rejection chemokine could contribute to improving treatment steps in transplantology. In this diploma thesis, serum chemokine levels were monitored in renal transplant patients, but these measurements did not show significant dynamics. Furthermore, the effect of pro-inflammatory cytokines on the release of chemokines from renal epithelial cells and monocytes was studied. Experiments were performed to monitor the levels of individual chemokines such as ENA-78, IL-8, MCP-1, MIP-1 β, RANTES, GRO alpha, THP-1 (monocyte/macrophage cell line), RPTEC (renal epithelial cells of proximal tubules) and RA (renal cell tumor lines). TNF-α (tumor necrosis...

Chemokiny u transplantace ledviny a jejich tvorba lidskými makrofágy a renálním epitelem / Chemokines in kidney transplantation and their production by human macrophages and renal epithelial cells.

Pidhorodetská, Halyna

January 2018

One of the main effects of pro-inflammatory cytokines is the induction of chemokines and the expression of adhesive molecules that regulate the migration of immune cells to the center of the damage. Chemoattractant gradient also provides a physiological delivery of cells to tissues and lymphatic organs under normal circumstances. Chemokines are chemotactic cytokines that form a very large and diverse group of secreted proteins that have many functions both in processes that maintain homeostasis but also in inflammatory states. Production of some chemokines also has a major effect on graft rejection. Further understanding of the mechanisms involved in the acute rejection chemokine could contribute to improving treatment steps in transplantology. In this diploma thesis, serum chemokine levels were monitored in renal transplant patients, but these measurements did not show significant dynamics. Furthermore, the effect of pro- inflammatory cytokines on the release of chemokines from renal epithelial cells and monocytes was studied. Experiments were performed to monitor the levels of individual chemokines such as ENA-78, IL-8, MCP-1, MIP-1β, RANTES, GRO-α, THP-1 (monocyte/macrophage cell line), RPTEC (renal epithelial cells of proximal tubules) and RA (renal cell tumor lines). TNF-α had an effect on the...