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Estudios

Ofertas de Trabajo Fin de Máster en Biomedicina Molecular 2026-2027

ID 21. Estudio del control del tráfico polarizado en la sinapsis inmune: función de FMNL1

Línea de investigación
Nanoinmunología y Linfocitos T.
Título
Estudio del control del tráfico polarizado en la sinapsis inmune: función de FMNL1.
Descripción

Role of FMNL1 formin in polarized secretory traffic towards the TCR and CAR-evoked immune synapse

This research line focuses on the contribution of FMNL1 formin-regulated actin cytoskeleton on IS architecture and function as well as its effects to MVB secretory traffic. We analysed here how formin-like 1 β (FMNL1β), an actin cytoskeleton-regulatory protein, regulates microtubule-organizing center (MTOC) and multivesicular bodies (MVB) polarization and exosome secretion at an immune synapse (IS) model in a phosphorylation-dependent manner. IS formation was associated with transient recruitment of FMNL1β to the IS, which was independent of protein kinase C δ (PKCδ). Simultaneous RNA interference of all FMNL1 isoforms prevented MTOC/MVB polarization and exosome secretion, which were restored by FMNL1βWT expression. However, expression of the non-phosphorylatable mutant FMNL1βS1086A did not restore neither MTOC/MVB polarization nor exosome secretion to control levels, supporting the crucial role of S1086 phosphorylation in MTOC/MVB polarization and exosome secretion. In contrast, the phosphomimetic mutant, FMNL1βS1086D, restored MTOC/MVB polarization and exosome secretion. Conversely, FMNL1βS1086D mutant did not recover the deficient MTOC/MVB polarization occurring in PKCδ-interfered clones, indicating that S1086 FMNL1β phosphorylation alone is not sufficient for MTOC/MVB polarization and exosome secretion. FMNL1 interference inhibited the depletion of F-actin at the cIS, which is necessary for MTOC/MVB polarization. FMNL1βWT and FMNL1βS1086D, but not FMNL1βS1086A expression, restored F-actin depletion at the cIS. Thus, actin cytoskeleton reorganization at the IS underlies the effects of all these FMNL1β variants on polarized secretory traffic. FMNL1 was found in the IS made by primary T lymphocytes, both in TCR and tandem CD19/CD22 chimeric antigen receptor (CAR)-evoked synapses (Fig 1). Taken together, these results point out a crucial role of S1086 phosphorylation in FMNL1β activation, leading to cortical actin reorganization and subsequent control of MTOC/MVB polarization and exosome secretion.

Further experiments are in progress to characterize the role of actin cytoskeleton and FMNL1 in polarized secretion at the immune synapse evoked by CAR-T cells. Our findings may allow to design strategies to improve the persistence and effector functions of CAR-T cells during T cell adoptive therapy protocols, opening new venues in therapeutic approaches against cancer.

Tutor
Manuel Izquierdo Pastor.
Centro
Departamento de Bioquímica (UAM).
Contacto
mizquierdo@iib.uam.es
Número de plazas ofertadas
1.