Imunização de camundongos LDLr-/- com peptídeo mimético da LDL eletronegativa: uma potencial estratégia terapêutica para a ateroscleros / Immunization of LDLr - / - mice with electronegative LDL mimetic peptides: a potential therapeutic strategy for atherosclerosis

Introdução: A aterosclerose é uma doença inflamatória crônica decorrente de alterações na parede das artérias de médio e grande calibre e associadas a diversos fatores de risco, dentre os quais destaca-se as hiperlipidemias, ou seja, o aumento plasmático das lipoproteínas, mas também outras comorbidades, como a Síndrome Metabólica. Entre as lipoproteínas, a lipoproteína de baixa densidade (LDL) é de grande relevância na aterosclerose. Diferentes espécies de LDL modificada (LDLm) são originadas através de lipólise, glicação e proteólise, além da oxidação, variando em densidade e eletronegatividade, sendo melhor denominada LDL eletronegativa [LDL (-)]. Considerando as diferenças conformacionais entre a estrutura da ApoB-100 da LDL nativa e da LDL (-), em um estudo inicial, nosso grupo desenvolveu um anticorpo monoclonal (2C7) a partir da imunização de camundongos Balb/c com a LDL (-) humana. Em uma etapa seguinte foi mapeado o epítopo reconhecido pelo anticorpo monoclonal anti-LDL (-) através de phage display. O peptídeo ligante do anticorpo monoclonal anti-LDL (-) foi nomeado p2C7. Esse peptídeo não representa regiões da sequência linear da ApoB-100 humana, mas microdomínios conformacionais de epítopos da ApoB-100 da LDL (-), tornando-os candidatos para a imunomodulação da aterogênese. Portanto, investigar a imunomodulação induzida pelos peptídeo p2C7 miméticos da LDL (-), por representar um epítopo imunodominante da LDL (-), poderá abrir novas perspectivas terapêuticas futuras para a imunomodulação da aterosclerose. Objetivo: Avaliar a imunomodulação promovida pelo p2C7 in vivo, utilizando camundongos C57BL/6 LDLr -/- e amostras de plasma humano. Adicionalmente, no estágio (BEPE) realizado no Instituto Karolinska (dezembro de 2019 a março de 2021), investigou-se o imunometabolismo como mediador nas doenças cardiovasculares. Na parte II-A, estão descritos os resultados do estudo inicialmente proposto. Na parte II-B, apresenta-se os resultados que foram desenvolvidos posteriormente, com ampliação do escopo do projeto, abordando-se a inflamação vascular envolvida no aneurisma de aorta abdominal através de ferramentas de bioinformática. Na parte II-C, são apresentados os resultados do estudo do envolvimento da enzima indolamina 2,3 dioxigenase (IDO) na esteatohepatite não-alcoólica (NASH) e aterosclerose em camundongos ApoE-/- and ApoE/IDO/double-knockout. Metodologia: Foi avaliada a presença de anticorpos anti-p2C7 em amostras de plasma humano de indivíduos com ou sem síndrome metabólica. Realizamos a determinação de TNF circulante nas mesmas amostras e prosseguimos com regressões lineares associando os parâmetros inflamatórios com os níveis de anticorpos anti-p2C7. Camundongos C57BL/6 LDLr -/- foram imunizados com p2C7 e os adjuvantes Alum ou Montanide ISA 720, analisando-se os títulos de anticorpos contra p2C7 e LDL (-), a produção de citocinas (IL-10, IL-4, IL-2, IL-6, IFNγ, IL-17, TNFα) e células secretoras de anticorpos. Camundongos C57BL/6 LDLr -/- foram tolerizados contra os peptídeos mimotopos, com injeções intravenosas (veia caudal) e desafiados com a imunização contendo LDL (-) + Alum. Avaliou-se os títulos de anticorpos contra p2C7 e LDL (-) e a produção de citocinas (TNF-α, IFNγ, IL-12, IL-6, IL-10 e MCP-1). Os camundongos foram mantidos em dieta hipercolesterolêmica por 3 meses para formação da placa aterosclerótica. Após este período, os camundongos foram eutanasiados, avaliando-se a formação de placa aterosclerótica na artéria abdominal e arco aórtico, assim como a produção de citocinas (TNF-α, IFNγ, IL-12, IL-6, IL-10 e MCP-1). Camundongos C57BL/6 LDLr -/- foram imunizados com OVA-p2C7 e, após dieta hipercolesterolêmica de 3 meses para formação de placa aterosclerótica, foram avaliados os parâmetros inflamatórios e avaliada a captação de 18F-FDG no arco aórtico através de PET/CT. Resultados: A imunização com o p2C7 (livre) não foi capaz de induzir resposta humoral, não se observando títulos detectáveis de anticorpos reativos à p2C7 ou LDL (-) em nenhum camundongo imunizado, assim como não foram detectadas células secretoras de anticorpos específicos para a LDL (-). O grupo imunizado com Alum ou Montanide + p2C7 teve aumento significativo na produção de TNF- quando comparado com os demais grupos. O protocolo de tolerização foi realizado com sucesso, visto que os camundongos tolerizados apresentaram títulos de anticorpos inferiores aos controles para o epítopo utilizado. Apenas os camundongos tolerizados com o p2C7 apresentaram aumento significativo na produção de IL-6, IL-12, IL-10, TNF-α, IFNγ e MCP 1 após dieta hipercolesterolêmica. A imunização ativa com OVA-p2C7 foi capaz de reduzir a produção de TNF induzida pela dieta hipercolesterolêmica, assim como reduzir a captação de 18F-FDG. Conclusão: o epítopo p2C7 é altamente expresso na LDL (-) de pacientes com maior risco cardiovascular. Além disso, a imunização ativa com p2C7 também se mostra uma ferramenta promissora para prevenir e regular a inflamação causada pela LDL (-) no curso da aterosclerose

Introduction: Atherosclerosis is a chronic inflammatory disease resulting from changes in the wall of medium and large-caliber arteries and associated with several risk factors, among which hyperlipidemias stand out, ie, the increase in plasma lipoproteins, but also other comorbidities, such as Metabolic Syndrome. Among the lipoproteins, low-density lipoprotein (LDL) is of great relevance in atherosclerosis. Different isoforms of modified LDL (LDLm) are originated through lipolysis, glycation and proteolysis, in addition to oxidation, varying in density and electronegativity, being better called electronegative LDL [LDL (-)]. Considering the conformational differences between the ApoB-100 structure of native LDL and LDL (-), in an initial study, our group developed a monoclonal antibody (2C7) from the immunization of Balb/c mice with human LDL (-). In a next step, the epitope recognized by the anti-LDL monoclonal antibody (-) was mapped using phage display. The binding peptide of anti-LDL monoclonal antibodies (-) was named p2C7. This peptide does not represent linear sequence regions of human ApoB-100, but conformational microdomains of LDL (-) ApoB-100 epitopes, making them candidates for the immunomodulation of atherogenesis. Therefore, investigating the immunomodulation induced by p2C7 peptide mimetics of LDL (-) as it represents an immunodominant epitope of LDL (-) could open new future therapeutic perspectives for the immunomodulation of atherosclerosis. Objective: To evaluate the immunomodulation promoted by p2C7 in vivo, using C57BL/6 LDLr -/- mice, and human plasma samples. In addition, in the internship (BEPE), held at the Karolinska Institute (December 2019 to March 2021), immunometabolism as a mediator of Cardiovascular Diseases was studied. In part II-A, the results of the initially proposed study are described. In part II-B, the results that were developed later are presented, expanding the scope of the project, approaching the vascular inflammation involved in the abdominal aortic aneurysm through bioinformatics tools. In part II-C, the results of the study of the involvement of the enzyme indoleamine 2,3 dioxygenase (IDO) in non-alcoholic steatohepatitis (NASH) and atherosclerosis in ApoE-/- and ApoE/IDO/double mice are presented -knockout. Methodology: The presence of anti-p2C7 antibodies in human plasma samples with or without Metabolic Syndrome was evaluated. We measured circulating TNF in the same samples and proceeded with linear regressions associating inflammatory parameters with levels of anti-p2C7 antibodies. C57BL/6 LDLr -/- mice were immunized with p2C7 and the adjuvants Alum or Montanide ISA 720, analyzing the antibody titers against p2C7 and LDL (-), the production of cytokines (IL-10, IL-4, IL -2, IL-6, IFNγ, IL-17, TNFα) and antibody-secreting cells. C57BL/6 LDLr -/- mice were tolerized against mimotope peptides with intravenous injections (caudal vein) and challenged with immunization containing LDL (-) + Alum. Antibody titers against p2C7 and LDL (-) and cytokine production (TNF-α, IFNγ, IL-12, IL-6, IL-10 and MCP-1) were evaluated. The mice were kept on a hypercholesterolemic diet for 3 months for atherosclerotic plaque formation. After this period, the mice were euthanized, evaluating the formation of atherosclerotic plaque in the abdominal artery and aortic arch, as well as the production of cytokines (TNF-α, IFNγ, IL-12, IL-6, IL-10 and MCP -1). C57BL/6 LDLr -/- mice were immunized with OVA-p2C7 and, after a 3-month hypercholesterolemic diet for atherosclerotic plaque formation, inflammatory parameters were evaluated and 18F-FDG uptake was evaluated by PET/CT. Results: Immunization with p2C7 (free) was not able to induce a humoral response, with no detectable titers of antibodies reactive to p2C7 or LDL (-) being observed in any immunized mouse, as well as no detectable antibody-secreting cells for the LDL (-). The group immunized with Alum or Montanide + p2C7 had a significant increase in TNF-α production when compared to the other groups. The tolerance protocol was successfully performed, as the tolerized mice had lower antibody titers than controls for the epitope used. Only mice tolerated with p2C7 showed a significant increase in the production of IL-6, IL-12, IL-10, TNF-α, IFNγ and MCP 1 after a hypercholesterolemic diet. Active immunization with OVA-p2C7 was able to reduce TNF production induced by the hypercholesterolemic diet, as well as to reduce 18F-FDG uptake. Conclusion: the p2C7 epitope is highly expressed in LDL (-) of patients with higher cardiovascular risk. Furthermore, active immunization with p2C7 is also a promising tool to prevent and regulate inflammation caused by LDL (-) in the course of atherosclerosis

The Expression Profile of mRNA and tRNA Genes in Splenocytes and Neutrophils after In Vivo Delivery of Antitumor Short Hairpin RNA of Indoleamine 2,3- Dioxygenase.

RNA-based therapeutics are considered as novel treatments for human diseases. Our previous study demonstrated that treatment with short-hairpin RNA against Ido1 (IDO shRNA) suppresses tumor growth, detects Th1-bias immune responses, and elevates expression of tryptophan transfer RNA (tRNATrp) in total splenocytes. In addition, depletion of Ly6g+ neutrophils attenuates the effect of IDO shRNA. The aim of this study was to investigate the regulatory network and the expression profile of tRNAs and other non-coding RNAs in IDO shRNA-treated spleens. The total splenocytes and magnetic bead-enriched splenic neutrophils were collected from the lung tumor bearing mice, which were treated with IDO shRNA or scramble IDO shRNA, and the collected cells were subsequently subjected to RNA sequencing. The gene ontology analysis revealed the different enrichment pathways in total splenocytes and splenic neutrophils. Furthermore, the expression of tRNA genes was identified and validated. Six isoacceptors of tRNA, with different expression patterns between total splenocytes and splenic neutrophils, were observed. In summary, our findings not only revealed novel biological processes in IDO shRNA-treated total splenocytes and splenic neutrophils, but the identified tRNAs and other non-coding RNAs may contribute to developing a novel biomarker gene set for evaluating the clinical efficiency of RNA-based cancer immunotherapies.

Combined therapy of infusion of DC from rats with higher expression of IDO and CD40L on rejection post heart transplantation.

OBJECTIVE: Indoleamine 2, 3-dioxygenase (IDO) can inhibit rejection of graft via inducing T cell apoptosis. CD40L monoclonal antibody (mAb) inhibits T cell activation. However, the effects of the combination of infusion of dendritic cell (DC) from IDO over-expressed donor mice and CD40L mAb on the treatment of graft rejection after heart transplantation have not been reported. MATERIALS AND METHODS: Allogeneic heart transplantation mouse model was established. Recipient mice were divided into three groups, including control group, IDO group (in which DC donors received adenoviral vector of IDO) and combined therapy group (which received both IDO over-expressed DC infusion and CD40L mAb injection post transplantation). Survival time and cardiac function were observed, with IDO expression being quantified. Flow cytometry (FCM) was used to analyze T cell apoptosis, while enzyme linked immunosorbent assay (ELISA) was adopted to test the levels of interferon-γ (IFN-γ), interleukin-2 (IL-2), interleukin-10 (IL-10) and interleukin-6 (IL-6). RESULTS: IDO expression was significantly elevated in both IDO and combined therapy groups, with enhanced T cell apoptosis compared to control group (p < 0.05). Both groups had better survival time and cardiac functions compared to control group, along with increased IL-10/IL-6 expression and suppressed INF-γ and IL-2 expression (p < 0.05). However, combined therapy had a better efficiency compared to IDO group (p < 0.05). CONCLUSIONS: Combined therapy of high IDO expressed mouse DC perfusion with CD40L mAb can elongate the survival time of recipient heart and inhibit rejection reaction via facilitating T cell apoptosis. Meanwhile, combined therapy could also regulate the expression of some immune suppressant factors and mediate the Th1/Th2 cytokine balance.

Co-delivery of indoleamine 2,3-dioxygenase prevents loss of expression of an antigenic transgene in dystrophic mouse muscles.

A significant problem affecting gene therapy approaches aiming at achieving long-term transgene expression is the immune response against the protein product of the therapeutic gene, which can reduce or eliminate the therapeutic effect. The problem is further exacerbated when therapy involves targeting an immunogenic tissue and/or one with a pre-existing inflammatory phenotype, such as dystrophic muscles. In this proof-of-principle study, we co-expressed a model antigen, bacterial ß-galactosidase, with an immunosuppressive factor, indoleamine 2,3-dioxygenase 1 (IDO1), in muscles of the mdx mouse model of Duchenne muscular dystrophy. This treatment prevented loss of expression of the transgene concomitant with significantly elevated expression of T-regulatory (Treg) markers in the IDO1-expressing muscles. Moreover, co-expression of IDO1 resulted in reduced serum levels of anti-ß-gal antibodies. These data indicate that co-expression of genes encoding immunomodulatory enzymes controlling kynurenine pathways provide a viable strategy for preventing loss of transgenes targeted into dystrophic muscles with pre-existing inflammation.

Reduced cytotoxic function of effector CD8+ T cells is responsible for indoleamine 2,3-dioxygenase-dependent immune suppression.

Indoleamine 2,3-dioxygenase (IDO), a potent immunosuppressive enzyme, contributes to tumoral escape, immune tolerance, and protection against allograft injury. In this paper, we report that inhibition of CD8(+) T cell-mediated cytotoxic function is an important mechanism behind IDO's immune-modulating property. The experimental rat lung allograft proved attractive for evaluating effector CD8(+) T cells. Enhanced IDO activity achieved by using a lung-tissue-targeted nonviral human IDO gene transfer approach reduced, but did not eliminate, infiltrating CD8(+) T cells. Although CD8(+) T cells existed in the IDO-high lung allografts, CD8(+) T cells remained viable and could proliferate for an extended period. However, cells lost their ability to attack allogeneic donor lung cells in vivo and allogeneic target cells in vitro. The impaired cytotoxic function seen in the IDO-treated CD8(+) T cells was accompanied by defects in production of granule cytotoxic proteins, including perforin and granzyme A and B. Furthermore, we discovered that IDO leads to an impaired bioenergetic condition in active CD8(+) T cells via selective inhibition of complex I in the mitochondrial electron transfer chain. These intriguing findings provide a base for establishing a novel mode of IDO's immune-suppressing action. Additionally, donor lung IDO delivery, a direct and/or leukocyte passenger effect, impaired CD8(+) effector cell function.

[Potential endogenous immunological self-protection of uveal melanoma by indoleamine 2,3-dioxygenase]. / Potenzieller endogener, immunologischer Schutzmechanismus uvealer Melanome durch Indoleamine 2,3-Dioxygenase.

BACKGROUND: Uveal melanomas are the most common intraocular tumours in the adult. Although they represent less than 1% of all tumour cases, uveal melanomas are considerd to be rather aggressive due to early hepatic metastases. Indoleamine 2,3-dioxygenase (IDO) is the principle enzyme in the degradation of the essential amino acid L-tryptophan to L-kynurenine. MATERIALS AND METHODS: In this study, the L-kynurenine production of six uveal melanoma cell lines was examined and immunohistochemistry performed for detection of IDO expression within uveal melanomas. RESULTS: In all the examined cell lines, a basal degradation of tryptophan to L-kynurenine was detectable. Supplementation with interferon-gamma could up-regulate this basal L-kynurenine production. The expression of IDO using immunohistochemistry was demonstrated within all examined tumours. CONCLUSIONS: The expression of IDO within the tumours may shed light on an important adaptive mechanism which allows the melanoma cells to escape T-cell-dependent immunosurveillance as soon as these cells metastise and enter non-immunologically privileged tissue. As competitive inhibition of IDO by 1-methyl-tryptophan is possible, a new therapeutic pathway might be available.

Adrenergic modulation of dendritic cell cancer vaccine in a mouse model: role of dendritic cell maturation.

The aim of the present study was to evaluate the role of beta2-adrenergic receptors (beta2-ARs) in the outcome of a dendritic cell (DC)-based cancer vaccine in the murine E.G7-ovalbumin (OVA) model. We found that unlike the beta2-AR expressed on antigen loaded DCs, beta2-ARs expressed in the site of DCs inoculation may influence the efficacy of the antitumor response. Intradermal injection of Staphylococcus aureus peptidoglycan along with the beta2-AR-specific antagonist ICI 118,551 increased the local innate cytokine response in tumor-bearing mice. When the adoptive transfer of immature DCs loaded with OVA followed this skin preconditioning, the antitumor response was increased and tumor growth was significantly reduced. Surprisingly, when OVA-loaded mature DCs were used, the effect of the skin preconditioning was the opposite and tumor growth was similar to that observed in control, nonimmunized mice. The extent of the antitumor response on transfer of immature or mature DCs was mediated by a different migration in the draining lymph nodes and by a distinct recruitment of endogenous DCs that resulted in a modulation of the OVA-specific cytotoxic T lymphocyte response. The unexpected tolerogenic effect exerted by mature DCs on skin preconditioning was apparently mediated by the expression of a distinctive pattern of cytokines and of the suppressive enzyme indoleamine 2, 3-dioxygenase in draining lymph nodes. In conclusion, we found that beta2-ARs inhibition along with toll-like receptor2 activation at the site of cancer vaccination may either enhance the resulting antitumor response or be tolerogenic in dependence of the maturation state of the transferred DCs.