Polyomavirus JC (JCPyV) is a ubiquitous human neurotropic virus that can cause progressive multifocal leukoencephalopathy (PML), sometimes as a consequence of drug treatment for disabling diseases, including Multiple Sclerosis. JCPyV expresses microRNAs (miRNAs), and in particular miR-J1-5p, but at now we have limited knowledge regarding this aspect. In the present study the expression of JCPyV miR-J1-5p was measured in infected COS-7, to verify if and when this miRNA is expressed in a cell model of JCPyV-MAD-4 strain infection. Results showed that miR-J1-5p expression was relatively constant inside the cells from 11 days to 35 days after infection (mean: 4.13 × 105 copies/μg), and became measurable in supernatants 18 days after infection (mean: 7.20 × 104 copies/μl). miR-J1-5p expression in supernatants peaked (3.76 × 105 copies/μl) 25 days after infection and started to decrease 32 days after infection (7.20 × 104 copies/μl). These data show that COS-7 cells, already used as model for JCPyV replication cycle, can be also utilized to study JCPyV miRNAs expression, potentially opening new research avenues for diseases in which current therapeutic approaches could result in severe adverse effects (e.g. Natalizumab-associated JCPyV reactivation in Multiple Sclerosis patients). In these situations monitoring of miR-J1-5p may shed light on the mechanisms of virus reactivation and may help the clarification of the mechanisms responsible for such severe side effects.
COS-7 cells is a cellular model to monitor Polyomavirus JC miR-J1-5p expression / S. Agostini, R. Mancuso, A. Costa, F. Guerini, M. Clerici. - In: MOLECULAR BIOLOGY REPORTS. - ISSN 1573-4978. - (2020). [Epub ahead of print] [10.1007/s11033-020-05862-0]
COS-7 cells is a cellular model to monitor Polyomavirus JC miR-J1-5p expression
A. Costa;M. Clerici
2020
Abstract
Polyomavirus JC (JCPyV) is a ubiquitous human neurotropic virus that can cause progressive multifocal leukoencephalopathy (PML), sometimes as a consequence of drug treatment for disabling diseases, including Multiple Sclerosis. JCPyV expresses microRNAs (miRNAs), and in particular miR-J1-5p, but at now we have limited knowledge regarding this aspect. In the present study the expression of JCPyV miR-J1-5p was measured in infected COS-7, to verify if and when this miRNA is expressed in a cell model of JCPyV-MAD-4 strain infection. Results showed that miR-J1-5p expression was relatively constant inside the cells from 11 days to 35 days after infection (mean: 4.13 × 105 copies/μg), and became measurable in supernatants 18 days after infection (mean: 7.20 × 104 copies/μl). miR-J1-5p expression in supernatants peaked (3.76 × 105 copies/μl) 25 days after infection and started to decrease 32 days after infection (7.20 × 104 copies/μl). These data show that COS-7 cells, already used as model for JCPyV replication cycle, can be also utilized to study JCPyV miRNAs expression, potentially opening new research avenues for diseases in which current therapeutic approaches could result in severe adverse effects (e.g. Natalizumab-associated JCPyV reactivation in Multiple Sclerosis patients). In these situations monitoring of miR-J1-5p may shed light on the mechanisms of virus reactivation and may help the clarification of the mechanisms responsible for such severe side effects.File | Dimensione | Formato | |
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