<p>Scientists have discovered which cells of the lungs and bronchi are targets for novel coronavirus infection, findings that may aid in the development of novel drug candidates to treat COVID-19.</p>.<p>The study, published in The EMBO Journal, revealed that the receptor for the virus is abundantly expressed in the progenitor cells of the respiratory tract which have hair-like projections to sweep mucus and bacteria out of the lungs.</p>.<p><strong>Read: <a href="https://www.deccanherald.com/national/coronavirus-india-update-state-wise-total-number-of-confirmed-cases-deaths-on-april-8-822699.html" target="_blank">State-wise total number of confirmed cases, deaths</a></strong></p>.<p>Researchers, including those from the Berlin Institute of Health (BIH) in Germany, analysed samples of twelve lung cancer patients obtained from the Heidelberg Lung Biobank in Germany.</p>.<p>They also studied cells from the airways of healthy patients, which had been collected in a minimally invasive manner during a bronchoscopy examination performed to rule out lung cancer.</p>.<p>"I was convinced that the data we gathered from these non-coronavirus infected patients would provide important information for understanding the viral infection," said study co-author Roland Eils from BIH.</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-india-news-live-updates-statewise-total-number-of-cases-deaths-statistics-lockdown-latest-news-817763.html?_ga=2.216362448.796532253.1584967622-1742751096.1579906940"><strong>For latest updates on coronavirus outbreak, click here</strong></a></p>.<p>"We wanted to find out which specific cells the coronavirus attacks," explained Christian Conrad, who also works at the BIH.</p>.<p>The scientists said the virus' spike protein attaches to an ACE2 receptor on the cell surface.</p>.<p>In addition, they said the virus needs one or more co-factors for it to be able to penetrate cells.</p>.<p>Using single-cell sequencing technology, the researchers sequenced the genome of 60,000 cells.</p>.<p>"We then analysed a total of nearly 60,000 cells to determine whether they activated the gene for the receptor and potential co-factors, thus in principle allowing them to be infected by the coronavirus," said Soeren Lukassen, one of the lead authors of the study.</p>.<p>"We only found the gene transcripts for ACE2 and for the cofactor TMPRSS2 in very few cells, and only in very small numbers," Lukassen said.</p>.<p>The scientists discovered that certain progenitor cells in the bronchi are mainly responsible for producing the coronavirus receptors.</p>.<p>These progenitor cells, they said, normally develop into respiratory tract cells lined with hair-like projections called cilia that sweep mucus and bacteria out of the lungs.</p>.<p>"Armed with the knowledge of which cells are attacked, we can now develop targeted therapies," explained co-author Michael Kreuter from the Thorax Clinic at Heidelberg University Hospital in Germany.</p>.<p>According to the study, the ACE2 receptor density on the cells increased with age, and was generally higher in men than in women.</p>.<p>"This was only a trend, but it could explain why SARS-CoV-2 has infected more men than women," Eils said.</p>.<p>However, the scientists said the sample sizes are too small to make conclusive statements, adding that the study needs to be repeated in larger patient cohorts.</p>.<p>"These results show us that the virus acts in a highly selective manner, and that it is dependent on certain human cells in order to spread and replicate," Eils explained.</p>.<p>"The better we understand the interaction between the virus and its host, the better we will be able to develop effective counterstrategies," he added. </p>
<p>Scientists have discovered which cells of the lungs and bronchi are targets for novel coronavirus infection, findings that may aid in the development of novel drug candidates to treat COVID-19.</p>.<p>The study, published in The EMBO Journal, revealed that the receptor for the virus is abundantly expressed in the progenitor cells of the respiratory tract which have hair-like projections to sweep mucus and bacteria out of the lungs.</p>.<p><strong>Read: <a href="https://www.deccanherald.com/national/coronavirus-india-update-state-wise-total-number-of-confirmed-cases-deaths-on-april-8-822699.html" target="_blank">State-wise total number of confirmed cases, deaths</a></strong></p>.<p>Researchers, including those from the Berlin Institute of Health (BIH) in Germany, analysed samples of twelve lung cancer patients obtained from the Heidelberg Lung Biobank in Germany.</p>.<p>They also studied cells from the airways of healthy patients, which had been collected in a minimally invasive manner during a bronchoscopy examination performed to rule out lung cancer.</p>.<p>"I was convinced that the data we gathered from these non-coronavirus infected patients would provide important information for understanding the viral infection," said study co-author Roland Eils from BIH.</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-india-news-live-updates-statewise-total-number-of-cases-deaths-statistics-lockdown-latest-news-817763.html?_ga=2.216362448.796532253.1584967622-1742751096.1579906940"><strong>For latest updates on coronavirus outbreak, click here</strong></a></p>.<p>"We wanted to find out which specific cells the coronavirus attacks," explained Christian Conrad, who also works at the BIH.</p>.<p>The scientists said the virus' spike protein attaches to an ACE2 receptor on the cell surface.</p>.<p>In addition, they said the virus needs one or more co-factors for it to be able to penetrate cells.</p>.<p>Using single-cell sequencing technology, the researchers sequenced the genome of 60,000 cells.</p>.<p>"We then analysed a total of nearly 60,000 cells to determine whether they activated the gene for the receptor and potential co-factors, thus in principle allowing them to be infected by the coronavirus," said Soeren Lukassen, one of the lead authors of the study.</p>.<p>"We only found the gene transcripts for ACE2 and for the cofactor TMPRSS2 in very few cells, and only in very small numbers," Lukassen said.</p>.<p>The scientists discovered that certain progenitor cells in the bronchi are mainly responsible for producing the coronavirus receptors.</p>.<p>These progenitor cells, they said, normally develop into respiratory tract cells lined with hair-like projections called cilia that sweep mucus and bacteria out of the lungs.</p>.<p>"Armed with the knowledge of which cells are attacked, we can now develop targeted therapies," explained co-author Michael Kreuter from the Thorax Clinic at Heidelberg University Hospital in Germany.</p>.<p>According to the study, the ACE2 receptor density on the cells increased with age, and was generally higher in men than in women.</p>.<p>"This was only a trend, but it could explain why SARS-CoV-2 has infected more men than women," Eils said.</p>.<p>However, the scientists said the sample sizes are too small to make conclusive statements, adding that the study needs to be repeated in larger patient cohorts.</p>.<p>"These results show us that the virus acts in a highly selective manner, and that it is dependent on certain human cells in order to spread and replicate," Eils explained.</p>.<p>"The better we understand the interaction between the virus and its host, the better we will be able to develop effective counterstrategies," he added. </p>