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Abstrak :
ABSTRAK
Penelitian mengenai pengembangan vaksin DNA pengekspresi antigen fusi hemaglutinin dan VP22 terhadap respon antibodi spesifik dan sel T CD8 pada mencit BALB/c telah dilakukan. Tujuan penelitian ini adalah untuk menilai penambahan VP22 secara terfusi pada plasmid pcDNA H5cop?TM terhadap respon imun humoral dan seluler yang diinduksi oleh vaksin DNA pemgekspresi antigen hemaglutinin virus influenza A H5N1. Metodologi yang digunakan dalam penelitian ini yaitu uji eksperimental berupa kenaikan dan reaktivitas serum yang diperoleh dari kelompok mencit BALB/c yang divaksin dengan pcdnawt, pcdna-H5cop?TM, pcdna-, pcdnaH5cop?TM-VP22, pcdnaH5copfull serta respon sel T CD8 dari spleen mencit BALB/c yang mensekresikan IFN-? spesifik terhadap peptida H5N1 MHC Class I. Mencit BALB/c berusia 8 minggu divaksinasi sebanyak tiga kali secara intramuskular dengan interval waktu 2 minggu untuk tiap vaksinasi. Semua kelompok mencit menunjukkan peningkatan respon antibodi spesifik dibandingkan dengan kontrol dengan nilai rasio OD serum ketiga pada kelompok mencit pcdna-H5cop?TM, pcdnaH5cop?TM-VP22, pcdnaH5copfull dan kontrol secara berurutan adalah 1.71 p=0.006 , 1.56 p=0.010 , 1,05 p=0.016 dan 1.01. Hasil uji statistik menunjukkan bahwa tidak ada perbedaan bermakna pada kelompok perlakuan pcdna-H5cop?TM dengan pcdnaH5cop?TM-VP22 terhadap protein HA p=0.200 . Sementara pada respon sel T CD8 yang diperoleh dari optimasi ELISPOT menunjukkan adanya spot forming unit SFC pada spleen mencit yang divaksinasi dengan pcdnaH5cop?TM-VP22 pada berbagai konsentrasi peptida H5N1 yaitu berturut-turut 20 spot 100ng , 22 spot 250ng , 22 spot 500ng , 49 spot 750ng , dan 72 spot 1000ng . Nilai spot tertinggi didapatkan dengan konsentrasi peptida H5N1 sebanyak 1000ng. Hasil yang diperoleh mengindikasikan bahwa dengan adanya penambahan VP22 secara terfusi pada pcdna-H5cop?TM dapat meningkatkan respon seluler terhadap virus influenza A H5N1.

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ABSTRACT
Research on the development of DNA vaccines expressing a fused gene of haemagglutinin HA and VP22 towards specific antibody and CD8 T cells responses in mice BALB c has been done. The purpose of this study was to asses the fused VP22 into the pcDNA H5cop TM towards humoral and cellular imune responses. The methodology used in this study was experimental method that focused on increase of antibody level of serum obtained from groups of BALB c mice that previously vaccinated with pcDNAwt, pcDNA H5COP TM, pcDNA , pcDNA H5COP TM VP22, pcDNA H5COP full. Response CD8 T cell generated from spleen of mice BALB c that secreted IFN H5N1 peptides specific to MHC class I was also observed. Significant increase of level of specific antibody response were shown by value of control compared to third serum with mean value of OD optical density of pcDNA H5COP TM, pcDNA H5COP TM VP22, pcDNA H5COP full and control 1.71 p 0.006 , 1.56 p 0.010 , 1,05 p 0.015 and 1,01 respectively. Statistical analysis showed that there was no significant difference in group treated with pcDNA H5COP TM with pcDNA H5COP TM VP22 towards HA protein p 0.200 . The ELISPOT optimizations showed response to CD8 T cells by formation of spot forming units SFC in the spleen of mice vaccinated with pcDNA H5COP TM VP22 with various concentrations of peptide H5N1 applied, 20 spots 100ng , 22 spots 250ng , 22 spots 500ng , 49 spots 750ng , and 72 spots 1000ng respectively. The highest value obtained by peptide of H5N1 with a total peptide 1000ng. The results indicated that the fused of VP22 into the pcDNA H5cop TM can enhance cellular responses against H5N1 influenza A virus.

Abstrak :
DNA vaccine is a promissing strategy in preparation for an influenza pandemic. DNA vaccine has been known for its ability to stimulate specific cytotoxic T cells CTL. C3D genetic adjuvants and Spdfull CD40L has been known to increase specific antibody responses. The purpose of this study is to determine the effect of the addition of genetic adjuvants C3D and Spdfull CD40L in H5N1 hemagglutinin DNA vaccines. Codon of DNA fragments of Hemaglutinin has been optimized and part transmembrane H5COP TM has been removed. Construction of H5COP TM DNA vaccine was using the expression vector pcDNA 3.1 and expressed in CHO cells was done to verify the vaccine construction. A group of 8 weeks BALB C mice were vaccinated intramuscularly with 3 weeks intervals of for each vaccination. Mice blood before primary vaccination and after each vaccination were collected and stored at 30°C to be analyzed. Another group of mice were vaccinated using plasmid pcDNA 3.1 wt as a control group, whereas four combinations of plasmid DNA, pcDNA 3.1 H5COP TM, pcDNA 3.1 H5COP TM C3D, pcDNA 3.1 Spdfull H5COP TM CD40L and pcDNA 3.1 Spdfull H5COP TM C3D CD40L were used for the treatment. Level of antibody response that occur from each treatment were measured using ELISA with H5COP as antigen coat for ELISA plate. The results of the ELISA test showed increased ratio of OD in baseline to third serum, with the highest ratio was H5COP TM C3D Spdfull CD40L 2.236, followed by H5COP TM C3D 1.900 , and the Spdfull H5COP TM CD40L 1.874.

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Vaksin DNA merupakan strategi yang menjanjikan dalam persiapan menghadapi pandemik influenza. Vaksin DNA telah diketahui kemampuannya dalam menstimulasi sel T sitotoksik yang spesifik. Adjuvan genetik C3d dan Spdfull CD40L telah diketahui dapat meningkatkan respon antibodi spesifik. Tujuan dari penelitian ini ingin mengetahui efek penambahan adjuvan genetik C3d dan Spdfull CD40L pada vaksin DNA Hemaglutinin H5N1. Fragmen DNA Hemaglutinin yang digunakan telah dioptimasi kodon dan dihilangkan bagian transmembrannya H5COP-TM. Vaksin DNA H5COP?TM dikonstruksi menggunakan vektor ekspresi pcDNA 3.1 dan hasil konstruksi setelah diverifikasi diuji ekspresi pada sel CHO. Mencit BALB/c berusia 8 minggu divaksinasi sebanyak tiga kali secara intramuskular dengan interval waktu 3 minggu untuk tiap vaksinasi. Darah mencit sebelum vaksinasi primer dan paska vaksinasi dikumpulkan dan disimpan pada -30°C untuk dianalisis. Mencit yang divaksin plasmid pcDNA 3.1 wt digunakan sebagai kelompok kontrol, sedangkan untuk perlakuan digunakan 4 kombinasi plasmid DNA yaitu, pcDNA 3.1 H5COP?TM, pcDNA 3.1 H5COP?TM-C3d, pcDNA 3.1 H5COP?TM Spdfull CD40L dan pcDNA 3.1 H5COP?TM-C3d Spdfull CD40L. Respon antibodi dari setiap perlakuan diukur menggunakan metode ELISA dengan antigen H5COP sebagai antigen pelapis pelat ELISA. Berdasarkan hasil uji ELISA, nilai rasio kenaikan OD baseline sampai serum ke-3, mencit yang divaksinasi dengan vaksin DNA H5COP?TM-C3d Spdfull CD40L memiliki nilai rasio yang paling tinggi 2.236 , diikuti dengan mencit yang divaksinasi dengan vaksin DNA H5COP?TM-C3d 1.900 , dan mencit yang divaksinasi dengan vaksin DNA H5COP?TM Spdfull CD40L 1.874.

Abstrak :
ABSTRAK Virus dengue DENV dapat menginfeksi manusia tanpa batasan usia di daerah tropis dan subtropis. Vaksin DENV dari keempat serotype sangat diperlukan untuk mencegah infeksi DENV. Tujuan dari penelitian ini untuk melihat respon imun seluler CD4, CD8, dan CD25 pada mencit yang diimunisasi dengan vaksin DNA pUMD4 kla/b. Plasmid pUMD4 kla/b diproduksi dan diisolasi dengan menggunakan berbagai metode. Uji ekspresi pUMD4 kla/b dilakukan dengan transfeksi pada sel Chinese Hamster Ovary. Plasmid yang telah mengekspresikan protein preM-E DENV-4 selanjutnya diimunisasikan pada mencit ddY pada hari ke-0, ke-21, dan ke-42. Hasil analisis limpa tanpa induksi dengan menggunakan uji flow cytometry menunjukkan persentase CD4 pada mencit yang diimunisasi lebih rendah jika dibandingkan dengan kelompok pUMVC4a dan kelompok tanpa imunisasi. Akan tetapi persentase CD8 dan CD25 menunjukkan hasil yang lebih tinggi jika dibandingkan dengan kelompok pUMVC4a dan kelompok tanpa imunisasi. Analisis limpa dengan induksi pada mencit yang diimunisasi sebesar 3,7 CD4 , 9,7 CD8 , dan 13 CD25 secara berurutan dan persentase CD4, CD8, dan CD25 lebih tinggi jika dibandingkan dengan kelompok pUMVC4a dan kelompok tanpa imunisasi setelah imunisasi ke-3. Kesimpulan penelitian ini adalah adanya aktivasi imun seluler pada mencit setelah imunisasi dengan pUMD4 kla/b.

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ABSTRACT
Dengue virus infected humans in every ranges of ages at tropical and subtropical regions. In previous study DNA vaccine pUMD4 kla b was constructed. The purpose of this research is to inform cellular immune responses CD4, CD8, and CD25 in mice those were immunised by pUMD4 kla b. pUMD4 kla b plasmid was isolated by many methods. Expression test of pUMD4 kla b was held by transfection on CHO cells. pUMD4 kla b that had expressed preM E dengue proteins was immunised in ddY mice in aged 5 6 weeks on day 0, day 21, and day 42. Evaluation of immunizations could be seen from flow cytometry test on mice rsquo s splenocytes. pUMD4 kla b could express preM E dengue proteins. Result showed enhancements on percentages rsquo numbers of CD4 cells 2.6 , CD8 cells 4.4 , and CD25 6 in ddY mice without induction, and CD4 cells 3.7 , CD8 cells 9.7 , and CD25 13 with induction after third immunizations. Percentages of CD4, CD8, and CD25 in pUMD4 kla b rsquo s immunizations are higher than in pUMVC4a rsquo s immunizations and without immunizations. Conclusion there were cellular immunity activations after immunized with pUMD4 kla b.

Abstrak :
SARS-CoV-2 sebagai virus penyebab COVID-19 yang berikatan dengan reseptor ACE-2 untuk masuk ke dalam sel inang melalui protein spike-1. Protein spike-1 dapat menjadi target pencegahan COVID-19 melalui pengembangan vaksin. Vaksin berbasis DNA merupakan kandidat vaksin yang menjanjikan untuk dikembangkan. Spesimen naso-oro faring pasien COVID-19 yang telah dikonfirmasi dengan RT-PCR, diekstraksi dan diamplifikasi dengan menggunakan primer kloning terhadap plasmid pUMVC4a. Hasil sekuensing dianalisis dengan SeqScape 3.0 dan MEGA 11. Analisis epitop sel B dilakukan dengan berbagai piranti lunak berbasis web. Konstruksi DNA vaksin dilakukan melalui analisis in silico menggunakan SnapGene 6.0 serta in vitro melalui teknik DNA Rekombinan. Gen spike-1 teramplifikasi dengan ukuran 2.265 bp, namun ligasi ke pUMVC4a dan transformasi ke E.coli strain DH5α belum berhasil. Berdasarkan analisis, seluruh sekuen memiliki mutasi D614G dengan isolat A dan B memiliki PNI yang dekat dengan varian Wuhan wt sementara 5 isolat (C-G) termasuk dalam varian Omicron. Berdasarkan sifat antigenisitas, toksisitas, alergenisitas, topologi dan hidrofobisitas, empat belas sekuen asam amino (pada posisi 68-678 protein S-1) diajukan sebagai epitop terpilih. Terdapat 14 sekuens asam amino pada protein spike-1 SARS-CoV-2 yang dapat diajukan sebagai domain epitop sel B dalam pengembangan vaksin COVID-19 berbasis DNA. ......SARS-CoV-2 as the virus that causes COVID-19 binds to the ACE-2 receptor to enter host cells via the spike-1 protein. Spike-1 protein can be a target for preventing COVID-19 through vaccine development. DNA-based vaccines are promising vaccine candidates to be developed. Naso-oropharyngeal specimens of COVID-19 patients confirmed by RT-PCR were extracted and amplified using clone primers against the plasmid pUMVC4a. The sequencing results were analyzed with SeqScape 3.0 and MEGA 11. B cell epitope analysis was performed with various web-based software. Vaccine DNA construction was carried out through in silico analysis using SnapGene 6.0 and in vitro using Recombinant DNA techniques. The spike-1 gene was amplified with a size of 2,265 bp, but ligation to pUMVC4a and transformation to E.coli strain DH5α were not successful. Based on the analysis, all sequences have the D614G mutation with isolate A and B having a PNI that is close to the Wuhan wt variant while 5 isolates (C-G) belong to the Omicron variant. Based on antigenicity, toxicity, allergenicity, topology and hydrophobicity, fourteen amino acid sequences (at positions 68 - 678 of protein S-1) were proposed as selected epitopes. There are 14 amino acid sequences in the SARS-CoV-2 spike-1 protein that can be proposed as B cell epitope domains in the development of a DNA-based COVID-19 vaccine.

Abstrak :
[ABSTRAK
Pendahuluan: Infeksi dengue merupakan salah satu penyakit endemik di daerah tropis dan subtropis yang disebabkan oleh virus dengue (DENV). Hingga saat ini belum ada antiviral yang efektif untuk infeksi dengue. Penyebaran dan sirkulasi serotipe DENV berfariasi di setiap lokasi geografi, hal ini menyulitkan dalam melakukan evaluasi vaksin DENV. Oleh karena itu perlu dikembangkan kandidat vaksin DENV menggunakan strain Indonesia supaya dapat memberikan proteksi maksimal. Pada peneltian ini dikembangkan kandidat vaksin DNA tetravalen DENV berbasis gen prM-E DENV strain Indonesia. Metode: Konstruksi plasmid rekombinan kandidat vaksi dilakukan dengan cara menyisipkan gen prM-E setiap serotipe DENV ke dalam vektor pUMVC4a. Gen prM-E DENV merupakan strain Indonesia, yang diamplifikasi dari serum pasien yang terinfeksi dengan virus ini. Kemampuan plasmid rekombinan mengekspresikan protein prM-E DENV diuji di sel mamalia. Kemampuan kandidat vaksin menginduksi respon imun humoral dievaluasi secara monovalen dan tetravalen di mencit jenis ddY. Titer IgG anti dengue diperiksa menggunakan teknik ELISA, sedangkan titer antibodi netralisasi di tentukan dengan uji FRNT. Proteksi vaksin terhadap mencit yang diimunisasi dievaluasi dengan melakukan uji tantang menggunakan sel K562 yang diinfeksi DENV-2. Viremi virus di tentukan dengan menggunakan teknik foccus assay. Hasil: Konstruksi plasmid rekombinan kandidat vaksin DENV-1 dan DENV-3 sudah berhasil dilakukan. Plasmid dapat mengekspresikan protein prM-E DENV di sel mamalia, namun karakteristik dan kinetik protein masih belum dapat diketahui dengan jelas. Keempat kandidat vaksin DNA yang sedang dikembangkan dapat menginduksi respon imun, baik secara monovalen maupun tetravalen. Imunisasi secara tetravalen dapat memberikan proteksi pada mencit yang diuji tantang dengan sel K562 yang diinfeksi dengan DENV-2.;

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ABSTRACT
Introduction: Dengue infections are caused by dengue viruses (DENV) and are endemic in tropical and subtropical regions. At present, there is no effective antiviral treatment for dengue infection. Distribution and circulation of DENV serotypes varies by geographic location, it is difficult to evaluate DENV vaccine. Therefore, it is necessary to develop a vaccine candidate DENV using Indonesian strains in order to provide maximum protection. However, in this study, we constructed a recombinant plasmid-based prM-E gene from the Indonesia strain as a DENV DNA vaccine candidate. Methode: The recombinant plasmid was prepared by inserting the prM-E gene from each DENV serotypes into the plasmid backbone pUMVC4a. prM-E gene an Indonesia strain, which was amplified from patient sera infected with DENV. The ability of the recombinant plasmid expressing the prM-E DENV protein tested in mammalian cells. The ability of candidate vaccines induce humoral immune responses were evaluated monovalent and tetravalent in ddY mice. IgG titers of anti-dengue examined using ELISA technique, while neutralizing antibody titers determined with FRNT test. Vaccine protection against the immunized mice was evaluated by conducting challenge test using K562 cells infected by DENV-2. Viremia was determined by using the foccus assay. Result: Construction of recombinant plasmid vaccine candidate DENV-1 and DENV-3 was successfully performed. Plasmids can express prM-E DENV proteins in mammalian cells, but the characteristics and kinetics of protein still can not clearly known. Fourth DNA vaccine candidate that is being developed to induce an immune response, either monovalent or tetravalent. Tetravalent immunization may provide protection in mice challenged tested with K562 cells infected with DENV-2.;Introduction: Dengue infections are caused by dengue viruses (DENV) and are endemic in tropical and subtropical regions. At present, there is no effective antiviral treatment for dengue infection. Distribution and circulation of DENV serotypes varies by geographic location, it is difficult to evaluate DENV vaccine. Therefore, it is necessary to develop a vaccine candidate DENV using Indonesian strains in order to provide maximum protection. However, in this study, we constructed a recombinant plasmid-based prM-E gene from the Indonesia strain as a DENV DNA vaccine candidate. Methode: The recombinant plasmid was prepared by inserting the prM-E gene from each DENV serotypes into the plasmid backbone pUMVC4a. prM-E gene an Indonesia strain, which was amplified from patient sera infected with DENV. The ability of the recombinant plasmid expressing the prM-E DENV protein tested in mammalian cells. The ability of candidate vaccines induce humoral immune responses were evaluated monovalent and tetravalent in ddY mice. IgG titers of anti-dengue examined using ELISA technique, while neutralizing antibody titers determined with FRNT test. Vaccine protection against the immunized mice was evaluated by conducting challenge test using K562 cells infected by DENV-2. Viremia was determined by using the foccus assay. Result: Construction of recombinant plasmid vaccine candidate DENV-1 and DENV-3 was successfully performed. Plasmids can express prM-E DENV proteins in mammalian cells, but the characteristics and kinetics of protein still can not clearly known. Fourth DNA vaccine candidate that is being developed to induce an immune response, either monovalent or tetravalent. Tetravalent immunization may provide protection in mice challenged tested with K562 cells infected with DENV-2., Introduction: Dengue infections are caused by dengue viruses (DENV) and are endemic in tropical and subtropical regions. At present, there is no effective antiviral treatment for dengue infection. Distribution and circulation of DENV serotypes varies by geographic location, it is difficult to evaluate DENV vaccine. Therefore, it is necessary to develop a vaccine candidate DENV using Indonesian strains in order to provide maximum protection. However, in this study, we constructed a recombinant plasmid-based prM-E gene from the Indonesia strain as a DENV DNA vaccine candidate. Methode: The recombinant plasmid was prepared by inserting the prM-E gene from each DENV serotypes into the plasmid backbone pUMVC4a. prM-E gene an Indonesia strain, which was amplified from patient sera infected with DENV. The ability of the recombinant plasmid expressing the prM-E DENV protein tested in mammalian cells. The ability of candidate vaccines induce humoral immune responses were evaluated monovalent and tetravalent in ddY mice. IgG titers of anti-dengue examined using ELISA technique, while neutralizing antibody titers determined with FRNT test. Vaccine protection against the immunized mice was evaluated by conducting challenge test using K562 cells infected by DENV-2. Viremia was determined by using the foccus assay. Result: Construction of recombinant plasmid vaccine candidate DENV-1 and DENV-3 was successfully performed. Plasmids can express prM-E DENV proteins in mammalian cells, but the characteristics and kinetics of protein still can not clearly known. Fourth DNA vaccine candidate that is being developed to induce an immune response, either monovalent or tetravalent. Tetravalent immunization may provide protection in mice challenged tested with K562 cells infected with DENV-2.]

Abstrak :
The present book gives an update of the “world of naked gene vaccines”, namely DNA and RNA vaccines. Its content ranges from general mechanisms, inherent immunostimulatory properties and the vast potential to modulate immune responses, to recent successful clinical studies and approved veterinary gene vaccines. Beyond the state-of-the-art of genetic immunization, the reader will be stimulated with a chapter addressing “burning questions”.