Expression of Granulocyte-Macrophage Colony-Stimulating Factor Gene in Insect Cells by a Baculovirus Vector

Chiou, Chuang-Jiun

12 1900

The focus of this research is to describe the production and characterization of the human granulocyte-macrophage colony-stimulating factor (hGM-CSF) in insect cells, using Autographa californica buclear polyhedrosis virus (AcNPV) as an expression vector. All three forms of biological activity of hGM-CSF. Following N-glycanase treatment, the two glycosylated hGM-CSF proteins (15.5 and 16.5 KDa) which bound to Concanavalin A affinity column ran as a 14.5-15.5 KDa band on SDS-PAGE. Western blot analysis of expression in Sf9 cells treated with tunicamycin revealed only the presence of the 14.5 KDa species. The N-terminal amino acid sequence of the recombinant hGM-CSF was identical to that of natural hGM-CSF deduced from cDNA. These results demonstrate that baculovirus-produced hGM-CSF could be N-glycosylated in Sf9 cells, the signal peptide of recombinant hGM-CSF could be recognized and cleaved by infected insect cells and the resultant molecule secreted into the medium.

hematopoiesis

granulocyte-macrophage

baculoviruses

recombinant proteins

Hematopoiesis -- Regulation.

Hematopoietic growth factors.

Colony-stimulating factors (Physiology)

Baculoviruses.

Recombinant proteins.

The modulation by anthrax toxins of dendritic cell activation /

Chou, Ping-Jen.

January 2008

Dissertation (Ph.D.)--University of South Florida, 2008. / Includes vita. Includes bibliographical references.

VALIDAÇÃO DE MÉTODO POR CROMATOGRAFIA LÍQUIDA EM FASE REVERSA PARA AVALIAÇÃO DE POTÊNCIA DE MOLGRAMOSTIMA. CORRELAÇÃO COM O BIOENSAIO / VALIDATION OF A REVERSED-PHASE LIQUID CHROMATOGRAPHY METHOD FOR THE POTENCY EVALUATION OF MOLGRAMOSTIM. CORRELATION WITH THE BIOASSAY

Leal, Diogo Paim

24 September 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The granulocyte-macrophage colony stimulating factor (GM-CSF) is a cytokine that regulates the proliferation and differentiation of hematopoietic progenitor cells and activates mature granulocytes and macrophages. Clinically is used in enhancing hematopoietic recovery after cancer chemotherapy and bone marrow transplantation. A reversed-phase liquid chromatography (RP-LC) method was validated for the determination of the non-glycosylated recombinant rhGM-CSF (Molgramostim) in biopharmaceutical formulations. The RP-LC method was carried out on a Jupiter C4 column (250 mm x 4.6 mm i.d.), maintained at 45 ºC. The mobile phase A consisted of 0.1% TFA and the mobile phase B consisted of 0.1% TFA in acetonitrile, run at a gradient from: 0.01 34 min, 37% 50% of B; 34 35 min linear back to 37% of B and 35 40 min, 37% of B. The flow rate was 1 mL/min, and using photodiode array (PDA) detection at 214 nm. The chromatographic separation was obtained with the retention time of 29.2 min, and was linear over the concentration range of 2-300 μg/mL (r2 = 0.9992). The procedure was validated evaluating parameters such as the specificity, linearity, precision, accuracy, robustness, limit of detection and limit of quantitation. The specificity was proven through degradation studies, showing that also there was no interference of the excipients. Moreover, the in vitro cytotoxicity test of the degraded products showed significant differences (p<0.05). The proposed method was applied for the analysis of molgramostim and their related proteins, and the results were correlated to the bioassay, showing mean differences of the potency 1.02% higher for the RP-LC method, contributing to establish alternatives to characterize and monitoring its instability, improving the quality control and assuring the therapeutic efficacy. / O fator estimulador da colônia de granulócitos e macrófagos (GM-CSF) é uma citocina que regula a proliferação e diferenciação de células progenitoras hematopoiéticas e ativa granulócitos e macrófagos maduros. É clinicamente indicado após quimioterapia para o câncer e após transplante de medula óssea. No presente trabalho foi validado método por cromatografia líquida em fase reversa (CL-FR) para a avaliação da molgramostima, forma recombinante não-glicosilada do GM-CSF, em formulação biofarmacêutica. Utilizou-se coluna Júpiter C4 (250 mm x 4,6 mm d.i.), mantida a 45 °C. A fase móvel A foi composta de ácido trifluoracético 0,1% e a fase móvel B de ácido trifluoracético 0,1% em acetonitrila, eluídas no gradiente: 0,01 34 min, 37 50% de B; 34 35 min, 50 37% de B, mantendo-se nesta proporção até 40 min. Utilizou-se vazão de 1 mL/min, usando detector de arranjo de diodos (DAD) a 214 nm. A separação cromatográfica foi obtida no tempo de 29,2 min, sendo linear na faixa de concentração de 2 300 μg/mL (r2 = 0,9992). O procedimento foi validado, avaliando-se os parâmetros de especificidade, linearidade, precisão, exatidão, robustez, limite de detecção e quantificação. A especificidade foi comprovada através de estudos de degradação, demonstrando também que não houve interferência dos excipientes. Além disso, realizou-se o teste de citotoxicidade in vitro dos produtos degradados que apresentaram diferença significativa (p<0,05). O método foi aplicado para avaliação de potência de molgramostima e de proteínas relacionadas, e os resultados foram correlacionados com o bioensaio, observando-se diferenças médias de potência 1,02% superiores por CL-FR. Contribuiu-se assim para o estabelecimento de alternativas que aprimoram o controle da qualidade, garantindo a segurança e eficácia terapêutica.

Molgramostima

Bioensaio cromatografia líquida

Fase reversa

Validação

Molgramostim

Bioassay

Liquid chromatography

Reversed-phase

Validation

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Fusokine design as novel therapeutic strategy for immunosuppression

Rafei, Moutih.

January 2008

The societal burden of autoimmune diseases and donor organ transplant rejection in developed countries reflects the lack of effective immune suppressive drugs. The main objective of my thesis was to develop novel fusion proteins targeting receptors linked to autoimmunity; strategies that will allow the suppression of autoreactive cells while sparing resting lymphocytes. Interleukin (IL) 15 has been demonstrated to exert its effects mainly on activated T-cells triggered via their T-cell receptor (TCR). Since we found that the fusion of granulocyte-macrophage colony stimulating factor (GMCSF) to IL15 - aka GIFT15 - paradoxically leads to aberrant signalling downstream of the IL15R and blocks interferon (IFN)-gamma secretion in a mixed lymphocyte reaction (MLR), we hypothesized to use this fusokine in proof-of-principle cell transplantation models and shown that GIFT15 can indeed block the rejection of allogeneic and xenogeneic cells in immunocompetent mice. Additionally, we found that ex vivo GIFT15 treatment of mouse splenocytes lead to the generation of regulatory B-cells (Bregs). These Bregs express high levels of MHCII, IL10 and are capable to block antigen (Ag)-presentation in vitro as third party bystander cells. Moreover, a single injection of these GIFT15-generated Bregs in mice with pre-developed experimental autoimmune encephalomyelitis (EAE) leads to long lasting remission of disease. / Along those lines, we also found that mesenchymal stromal cells (MSCs) lead to the paracrine conversion of CCL2 to an antagonist form capable of specifically inhibiting plasma cells and activated Th17 cells. This mechanistic insight informed the design of a second class of suppression fusokine. Namely, the fusing of antagonist CCL2 to GMCSF - aka GMME1. We tested its potential use in autoimmune diseases such as EAE and rheumatoid arthritis (RA). We demonstrated that GMME1 leads to asymmetrical signalling and inhibition of plasma cells as well as Th17 EAE/RA-reactive CD4 T-cells. The net outcome of these pharmacological effects is the selective depletion of CCR2-reactive T-cells as demonstrated both in vitro and in vivo. / Overall, our data support the use of our fusion proteins as part of a powerful and specific immunosuppressive strategy either as directly injectable protein biopharmaceuticals or through the ex vivo generation of autologous Bregs in the case of GIFT15.

Receptors, Interleukin-15 -- metabolism.

Janus Kinases -- metabolism.

Arthritis, Rheumatoid -- drug therapy.

Mice.

Fusokine design as novel therapeutic strategy for immunosuppression

Rafei, Moutih.

January 2008

No description available.

Mice.

Receptors, Interleukin-15 -- metabolism.

Janus Kinases -- metabolism.

Arthritis, Rheumatoid -- drug therapy.

Desenvolvimento de estratégias para aumento da imunogenicidade da vacina de DNA HIVBr18 baseadas na fusão com a glicoproteína D do herpes vírus humano tipo 1 e na coadministração de citocinas / Developing strategies for increasing the immunogenicity of DNA vaccine HIVBr18 based on fusion with human herpes virus type 1 glycoprotein and cytokine coadministration

Santana, Vinicius Canato

07 July 2014

A formulação HIVBr18, previamente desenvolvida e testada, é uma vacina de DNA que codifica 18 epítopos CD4, promíscuos e conservados do HIV-1, e que após imunização de camundongos transgênicos para diversas moléculas de HLA de classe II humanas, observou-se proliferação de linfócitos T CD4+ e CD8+ e produção de IFN-? direcionadas a múltiplos epítopos codificados pela vacina. Abordamos aqui estratégias baseadas na fusão ou combinação dos epítopos codificados pela vacina HIVBr18 à glicoproteína D (gD) do HSV-1, e também na coadministração de plasmídeos que codificam citocinas (IL-2, -12, -15 e GM-CSF) visando aumentar a imunogenicidade de HIVBr18. A sequencia de DNA que codifica os 18 peptídeos da vacina HIVBr18 foi amplificada por PCR e clonada em um plasmídeo que abrigava a sequencia da gD do HSV-1. dando origem ao plasmídeo pVAX-gDh-HIVBr18. Animais imunizados com gDh-HIVBr18 apresentaram resposta imunológica similar ao grupo que recebeu somente HIVBr18, não sendo diferente também daqueles que receberam plasmídeos gDh-HIVBr18 que sofreram alterações nas sequências para melhorar o padrão de distribuição hidrofóbica e permitir a migração da proteína de fusão para o meio extracelular. Construímos e testamos um plasmídeo bicistrônico que expressa gDh e HIVBr18 isoladamente, mas também não observamos aumento na resposta imune induzida. A coadministração com o plasmídeo HIVBr18 e plasmídeos que codificam as citocinas IL-12, IL-15 e GM-CSF, proporciona um aumento na magnitude da resposta imunológica induzida contra o pool de peptídeos codificados pela vacina, entretanto sem alteração da amplitude da resposta. Além disso, o plasmídeo de GM-CSF induziu maior número de células T CD4+ polifuncionais. Demonstramos também que a coadministração do plasmídeo que codifica GM-CSF, induz uma resposta imune celular de maior magnitude mesmo em uma condição de dose reduzida. Entretanto, observamos que esta citocina não é um bom adjuvante quando utilizamos como vetor de imunização um adenovírus que expressa os 18 epítopos / The formulation HIVBr18, previously developed and tested, is based on a DNA vaccine encoding 18 conserved and promiscuous HIV-1 CD4 epitopes and after immunization of transgenic mice for many human HLA class II molecules using this DNA vaccine, could be observed proliferation of CD4+ and CD8+ T cells and IFN-y production directed to multiple epitopes encoded by the vaccine. We intend to explore here, strategies based on fusion or combination of epitopes encoded by HIVBr18 vaccine with glycoprotein D (gD) of HSV- 1 and also the coadministration of cytokine-encoding plasmids (pIL-2, -12, -15 and pGM -CSF) aiming to enhance immunogenicity of HIVBr18. The DNA sequence of epitopes encoded by HIVBr18 vaccine was amplified by PCR and cloned into a plasmid that contained the sequence of gD, giving rise to plasmid pVAX-gDh-HIVBr18. After mice immunization, animals immunized with this construct showed similar immune response to the group that received HIVBr18, and also the group of animals that received gDh-HIVBr18 plasmid that had been modified by exchange in peptides order to assure to the molecule a better hydrophobic distribution and allow translocation to the extracellular face of cell membrane. We constructed and injected mice with a bicistronic plasmid expressing gDh and HIVBr18, simultaneously and isolated, but no increase in the magnitude of the immune response was observed. HIVBr18 coadministration with cytokine-encoding plasmids pIL-12, pIL-15 and pGM-CSF, provides an increase in the magnitude of immune response induced against the peptides encoded by the vaccine, and similar breadth. In addition, co-immunization with pGM-CSF induced greater number of polyfunctional CD4 + T cells. We also demonstrate that, even in a low dose approach coadministration of pGM-CSF induced a higher immune response than HIVBr18 alone in the same dose. However, we observed that this cytokine is not a good adjuvant when used in combination with an adenovirus that expresses the 18 HIV-1 epitopes.

Adjuvantes imunológicos

Adjuvants immunologic

Aids vaccines

Camundongos endogâmicos BALB C

Citocinas

Cytokines

Herpesvirus 1 human

Herpesvirus humano 1

HIV-1

HIV-1

Mice inbred BALB C

Proteínas do envelope viral

Vaccines DNA

Vacinas contra a aids

Vacinas de DNA

Viral envelope proteins

Desenvolvimento de estratégias para aumento da imunogenicidade da vacina de DNA HIVBr18 baseadas na fusão com a glicoproteína D do herpes vírus humano tipo 1 e na coadministração de citocinas / Developing strategies for increasing the immunogenicity of DNA vaccine HIVBr18 based on fusion with human herpes virus type 1 glycoprotein and cytokine coadministration

Vinicius Canato Santana

07 July 2014

A formulação HIVBr18, previamente desenvolvida e testada, é uma vacina de DNA que codifica 18 epítopos CD4, promíscuos e conservados do HIV-1, e que após imunização de camundongos transgênicos para diversas moléculas de HLA de classe II humanas, observou-se proliferação de linfócitos T CD4+ e CD8+ e produção de IFN-? direcionadas a múltiplos epítopos codificados pela vacina. Abordamos aqui estratégias baseadas na fusão ou combinação dos epítopos codificados pela vacina HIVBr18 à glicoproteína D (gD) do HSV-1, e também na coadministração de plasmídeos que codificam citocinas (IL-2, -12, -15 e GM-CSF) visando aumentar a imunogenicidade de HIVBr18. A sequencia de DNA que codifica os 18 peptídeos da vacina HIVBr18 foi amplificada por PCR e clonada em um plasmídeo que abrigava a sequencia da gD do HSV-1. dando origem ao plasmídeo pVAX-gDh-HIVBr18. Animais imunizados com gDh-HIVBr18 apresentaram resposta imunológica similar ao grupo que recebeu somente HIVBr18, não sendo diferente também daqueles que receberam plasmídeos gDh-HIVBr18 que sofreram alterações nas sequências para melhorar o padrão de distribuição hidrofóbica e permitir a migração da proteína de fusão para o meio extracelular. Construímos e testamos um plasmídeo bicistrônico que expressa gDh e HIVBr18 isoladamente, mas também não observamos aumento na resposta imune induzida. A coadministração com o plasmídeo HIVBr18 e plasmídeos que codificam as citocinas IL-12, IL-15 e GM-CSF, proporciona um aumento na magnitude da resposta imunológica induzida contra o pool de peptídeos codificados pela vacina, entretanto sem alteração da amplitude da resposta. Além disso, o plasmídeo de GM-CSF induziu maior número de células T CD4+ polifuncionais. Demonstramos também que a coadministração do plasmídeo que codifica GM-CSF, induz uma resposta imune celular de maior magnitude mesmo em uma condição de dose reduzida. Entretanto, observamos que esta citocina não é um bom adjuvante quando utilizamos como vetor de imunização um adenovírus que expressa os 18 epítopos / The formulation HIVBr18, previously developed and tested, is based on a DNA vaccine encoding 18 conserved and promiscuous HIV-1 CD4 epitopes and after immunization of transgenic mice for many human HLA class II molecules using this DNA vaccine, could be observed proliferation of CD4+ and CD8+ T cells and IFN-y production directed to multiple epitopes encoded by the vaccine. We intend to explore here, strategies based on fusion or combination of epitopes encoded by HIVBr18 vaccine with glycoprotein D (gD) of HSV- 1 and also the coadministration of cytokine-encoding plasmids (pIL-2, -12, -15 and pGM -CSF) aiming to enhance immunogenicity of HIVBr18. The DNA sequence of epitopes encoded by HIVBr18 vaccine was amplified by PCR and cloned into a plasmid that contained the sequence of gD, giving rise to plasmid pVAX-gDh-HIVBr18. After mice immunization, animals immunized with this construct showed similar immune response to the group that received HIVBr18, and also the group of animals that received gDh-HIVBr18 plasmid that had been modified by exchange in peptides order to assure to the molecule a better hydrophobic distribution and allow translocation to the extracellular face of cell membrane. We constructed and injected mice with a bicistronic plasmid expressing gDh and HIVBr18, simultaneously and isolated, but no increase in the magnitude of the immune response was observed. HIVBr18 coadministration with cytokine-encoding plasmids pIL-12, pIL-15 and pGM-CSF, provides an increase in the magnitude of immune response induced against the peptides encoded by the vaccine, and similar breadth. In addition, co-immunization with pGM-CSF induced greater number of polyfunctional CD4 + T cells. We also demonstrate that, even in a low dose approach coadministration of pGM-CSF induced a higher immune response than HIVBr18 alone in the same dose. However, we observed that this cytokine is not a good adjuvant when used in combination with an adenovirus that expresses the 18 HIV-1 epitopes.

Adjuvantes imunológicos

Camundongos endogâmicos BALB C

Citocinas

Herpesvirus humano 1

HIV-1

Proteínas do envelope viral

Vacinas contra a aids

Vacinas de DNA

Adjuvants immunologic

Aids vaccines

Cytokines

Herpesvirus 1 human

HIV-1

Mice inbred BALB C

Vaccines DNA

Viral envelope proteins