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dc.contributor.authorValenzuela Fernández, Agustín 
dc.contributor.authorSantos, Guido 
dc.contributor.authorTorres, Néstor V.
dc.contributor.otherMedicina Física y Farmacología
dc.date.accessioned2024-01-15T21:09:45Z
dc.date.available2024-01-15T21:09:45Z
dc.date.issued2014
dc.identifier.urihttp://riull.ull.es/xmlui/handle/915/35365
dc.description.abstractLymphocyte invasion by HIV-1 is a complex, highly regulated process involving many different types of molecules that is prompted by the virus’s association with viral receptors located at the cell-surface membrane that culminates in the formation of a fusion pore through which the virus enters the cell. A great deal of work has been done to identify the key actors in the process and determine the regulatory interactions; however, there have been no reports to date of attempts being made to fully understand the system dynamics through a systemic, quantitative modeling approach. In this paper, we introduce a dynamic mathematical model that integrates the available information on the molecular events involved in lymphocyte invasion. Our model shows that moesin activation is induced by virus signaling, while filamin-A is mobilized by the receptor capping. Actin disaggregation from the cap is facilitated by cofilin. Cofilin is inactivated by HIV-1 signaling in activated lymphocytes, while in resting lymphocytes another signal is required to activate cofilin in the later stages in order to accelerate the decay of the aggregated actin as a restriction factor for the viral entry. Furthermore, stopping the activation signaling of moesin is sufficient to liberate the actin filaments from the cap. The model also shows the positive effect of gelsolin on actin capping by means of the nucleation effect. These findings allow us to propose novel approaches in the search for new therapeutic strategies. In particular, gelsolin inhibition is seen as a promising target for preventing HIV1 entry into lymphocytes, due to its role in facilitating the capping needed for the invasion. Also it is shown that HIV-1 should overcome the cortical actin barrier during early infection and predicts the different susceptibility of CD4+ T cells to be infected in terms of actin cytoskeleton dynamics driven by associated cellular factors.en
dc.format.mimetypeapplication/pdf
dc.language.isoen
dc.relation.ispartofseriesPLoS ONE 9(8):
dc.rightsLicencia Creative Commons (Reconocimiento-No comercial-Sin obras derivadas 4.0 Internacional)
dc.rights.urihttps://creativecommons.org/licenses/by-nc-nd/4.0/deed.es_ES
dc.titleQuantitative Analysis of the Processes and Signaling Events Involved in Early HIV-1 Infection of T Cellsen
dc.typeinfo:eu-repo/semantics/article
dc.identifier.doi10.1371/journal.pone.0103845


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