The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques

The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques

Helicobacter pylori, a Gram-negative flagellated microaerophilic bacterium, is associated with inflammation of the stomach, duodenal and gastric ulcer disease, and gastric cancer. This bacterium infects almost half of the world's population stomachs. One of this pathogen’s immunogenic...

Full description

Bibliographic Details
Main Authors: Ramazani-Dehnavi Behrouz, Doosti Abbas, Jami Mohammad-Saeid
Format: Article
Language:English
Published: Serbian Genetics Society 2018-01-01
Series:Genetika
Subjects:
Helicobacter pylori
flaA gene
immune stimulation
cytokines gene expression
Online Access:http://www.doiserbia.nb.rs/img/doi/0534-0012/2018/0534-00121803919R.pdf
id doaj-c5c0807d026a40bbbc212b01f1f44931
record_format Article
spelling doaj-c5c0807d026a40bbbc212b01f1f449312020-11-25T00:12:03ZengSerbian Genetics SocietyGenetika0534-00121820-60692018-01-0150391993210.2298/GENSR1803919R0534-00121803919RThe study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniquesRamazani-Dehnavi Behrouz0Doosti Abbas1Jami Mohammad-Saeid2Department of Biology, Faculty of Basic Sciences, Shahrekord Branch, Islamic Azad University, Shahrekord, IranBiotechnology Research Center, Shahrekord Branch, Islamic Azad University, Shahrekord, IranDepartment of Biology, Faculty of Basic Sciences, Shahrekord Branch, Islamic Azad University, Shahrekord, Iran + Cellular and Molecular Research Center, Basic Health Sciences Institute, Shahrekord University of Medical Sciences, Shahrekord, IranHelicobacter pylori, a Gram-negative flagellated microaerophilic bacterium, is associated with inflammation of the stomach, duodenal and gastric ulcer disease, and gastric cancer. This bacterium infects almost half of the world's population stomachs. One of this pathogen’s immunogenic genes is the flaA gene that can stimulate the host immune system. In our previous study, the immune response in pCDNA3 1(-)-flaA infused BALB/c mice against H. pylori infection was investigated using quantitative real-time PCR (q-RT-PCR). After preparation of pCDNA3 1(-)-flaA recombinant plasmid at large-scale, the mice were infused in the hip muscle by a recombinant vector with or without chitosan nanoparticles. The pcDNA3 1(-) was used as the negative control. The blood and tissue specimens of each mouse were collected at different times. The expression levels of cytokine genes (including IL-2, IFNγ, IL4) and the internal control gene were evaluated in peripheral blood cells using a q-RT-PCR method. Also, the flaA gene expression in mice muscle was measured at 15, 30, and 45 days after the last injection. In infused mice by pcDNA3 1(-)-flaA, the IL-2 and IFNγ genes were increased statistically (p <0.001) and IL4 was significantly decreased (p <0.001). Moreover, the expression of flaA gene in mice muscles was decreased by passing the time. Furthermore, the infused mice by pcDNA3 1(-)-flaA + nanoparticles showed a better immune response because of alteration in IL4 expression. Our findings in infused mice by pcDNA3 1(-)-flaA suggested that the expression level of IL-2 and IFNγ were increased compared to the IL-4 via simulation of Th1. Also, the expression of the flaA gene in tissue samples was decreased 45 days after the last injection. Therefore, it can be concluded that the pcDNA3.1(-)-flaA recombinant vector together with chitosan nanoparticles has the ability to stimulate the immune system and it can be investigated as a cost-effective method to control the H. pylori disease in a human in further studies.http://www.doiserbia.nb.rs/img/doi/0534-0012/2018/0534-00121803919R.pdfHelicobacter pyloriflaA geneimmune stimulationcytokines gene expression
collection DOAJ
language English
format Article
sources DOAJ
author Ramazani-Dehnavi Behrouz
Doosti Abbas
Jami Mohammad-Saeid
spellingShingle Ramazani-Dehnavi Behrouz
Doosti Abbas
Jami Mohammad-Saeid
The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
Genetika
Helicobacter pylori
flaA gene
immune stimulation
cytokines gene expression
author_facet Ramazani-Dehnavi Behrouz
Doosti Abbas
Jami Mohammad-Saeid
author_sort Ramazani-Dehnavi Behrouz
title The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
title_short The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
title_full The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
title_fullStr The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
title_full_unstemmed The study on the stimulation of the immune system in the infused BALB/C mice by pCDNA3.1(-)-flaA recombinant vector against Helicobacter pylori infection using molecular techniques
title_sort study on the stimulation of the immune system in the infused balb/c mice by pcdna3.1(-)-flaa recombinant vector against helicobacter pylori infection using molecular techniques
publisher Serbian Genetics Society
series Genetika
issn 0534-0012
1820-6069
publishDate 2018-01-01
description Helicobacter pylori, a Gram-negative flagellated microaerophilic bacterium, is associated with inflammation of the stomach, duodenal and gastric ulcer disease, and gastric cancer. This bacterium infects almost half of the world's population stomachs. One of this pathogen’s immunogenic genes is the flaA gene that can stimulate the host immune system. In our previous study, the immune response in pCDNA3 1(-)-flaA infused BALB/c mice against H. pylori infection was investigated using quantitative real-time PCR (q-RT-PCR). After preparation of pCDNA3 1(-)-flaA recombinant plasmid at large-scale, the mice were infused in the hip muscle by a recombinant vector with or without chitosan nanoparticles. The pcDNA3 1(-) was used as the negative control. The blood and tissue specimens of each mouse were collected at different times. The expression levels of cytokine genes (including IL-2, IFNγ, IL4) and the internal control gene were evaluated in peripheral blood cells using a q-RT-PCR method. Also, the flaA gene expression in mice muscle was measured at 15, 30, and 45 days after the last injection. In infused mice by pcDNA3 1(-)-flaA, the IL-2 and IFNγ genes were increased statistically (p <0.001) and IL4 was significantly decreased (p <0.001). Moreover, the expression of flaA gene in mice muscles was decreased by passing the time. Furthermore, the infused mice by pcDNA3 1(-)-flaA + nanoparticles showed a better immune response because of alteration in IL4 expression. Our findings in infused mice by pcDNA3 1(-)-flaA suggested that the expression level of IL-2 and IFNγ were increased compared to the IL-4 via simulation of Th1. Also, the expression of the flaA gene in tissue samples was decreased 45 days after the last injection. Therefore, it can be concluded that the pcDNA3.1(-)-flaA recombinant vector together with chitosan nanoparticles has the ability to stimulate the immune system and it can be investigated as a cost-effective method to control the H. pylori disease in a human in further studies.
topic Helicobacter pylori
flaA gene
immune stimulation
cytokines gene expression
url http://www.doiserbia.nb.rs/img/doi/0534-0012/2018/0534-00121803919R.pdf
work_keys_str_mv AT ramazanidehnavibehrouz thestudyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
AT doostiabbas thestudyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
AT jamimohammadsaeid thestudyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
AT ramazanidehnavibehrouz studyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
AT doostiabbas studyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
AT jamimohammadsaeid studyonthestimulationoftheimmunesystemintheinfusedbalbcmicebypcdna31flaarecombinantvectoragainsthelicobacterpyloriinfectionusingmoleculartechniques
_version_ 1725401460680687616

Similar Items