Tithi Mandal scite author profile

T cells are crucial for efficient antigen-specific immune responses and thus their migration within the body, to inflamed tissues from circulating blood or to secondary lymphoid organs, play a very critical role. T cell extravasation in inflamed tissues depends on chemotactic cues and interaction between endothelial adhesion molecules and cellular integrins. A migrating T cell is expected to sense diverse external and membrane-intrinsic mechano-physical cues, but molecular mechanisms of such mechanosensing in cell migration are not established. We explored if the professional mechanosensor Piezo1 play any role during integrin-dependent chemotaxis of human T cells. We found that deficiency of Piezo1 in human T cells interfered with integrin-dependent cellular motility. Piezo1 recruitment at the leading edge of moving T cells follows focal adhesion formation and local increase in membrane tension on chemokine receptor activation. Piezo1 activation constitutes a membrane-intrinsic component of the outside-in signaling in human T cells, migrating in response to chemokines, that mediates integrin recruitment to the leading edge.

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Formation of clathrin-pits and ATP-independent cholesterol-dependent tubules initiates mechano-regulation on de-adhesion

Mandal

Biswas

Ghosh

et al. 2023

Preprint

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Adherent cells ensure membrane homeostasis during de-adhesion by various mechanisms including endocytosis. Although mechano-chemical feedbacks involved in this process have been studied, the step-by-step build-up and resolution of the mechanical changes by endocytosis is not well understood. To investigate this, we study the de-adhesion of HeLa cells using a combination of interference reflection microscopy, optical-trapping and fluorescence experiments. We found that de-adhesion enhanced membrane height fluctuations of the basal membrane in the presence of an intact cortex. A reduction in the tether-force was also noted at the apical side. However, membrane fluctuations reveal phases of an initial drop in effective tension followed by a saturation. The area fractions of early (Rab5-labelled) and recycling (Rab4-labelled) endosomes as well as transferrin-labelled pits close to the basal plasma membrane also transiently increased. On blocking dynamin-dependent scission of endocytic pits, the regulation of fluctuations was not blocked but proceeded uncontrolled. Interestingly, the regulation could not be suppressed by ATP or cholesterol depletion individually but was arrested on depleting both. The data strongly supports pit-formation to be central to the reduction in fluctuations whether in normal or ATP depleted condition. Furthermore, while in normal conditions the contribution of clathrin-mediated endocytosis is clear, under ATP-depleted conditions we propose that cholesterol-dependent pits spontaneously regulate tension.

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Regulation of Endocytosis by Intracellular Membrane Tension Distribution

Mandal

2021

Biophysical Journal

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progression. Transcription of bcl-2 is controlled by two promoters, one of which contains a GQ-forming sequence. Understanding the stabilizing forces in this structure may lead to novel chemotherapeutic design. There are gaps in our current understanding of under what conditions GQs fold, which is crucial information that can give insight into the equilibrium of GQ conformations. To advance our understanding of the dominant bcl-2 promoter GQ, we performed molecular dynamics (MD) simulations using the Drude-2017 polarizable force field. Our simulation outcomes highlight two distinct changes within the GQ that coincide with ion binding. The first is the recruitment of a bulk K þ ion to the solvent-exposed face of the tetrad stem, which led to changes in base dipole moments and the K þ interaction energies of the guanines within the tetrad core. The second is the emergence of an ''electronegative pocket'' between the tetrad core and the long loop below the tetrad core. Ion binding in the electronegative pocket induces a backbone conformational change that may be relevant for inducing local conformational changes at K þ concentrations similar to those found in the cell. These results suggest two different locations within the bcl-2 GQ that may be targeted by small molecules to induce conformational changes.

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Formation of clathrin-pits and ATP-independent cholesterol-dependent tubules initiates mechano-regulation on de-adhesion

Biswas

Ghosh

Manikandan

et al. 2023

Preprint

View full text Add to dashboard Cite

Adherent cells ensure membrane homeostasis during de-adhesion by various mechanisms including endocytosis. Although mechano-chemical feedbacks involved in this process have been studied, the step-by-step build-up and resolution of the mechanical changes by endocytosis is not well understood. To investigate this, we studied the de-adhesion of HeLa cells using a combination of interference reflection microscopy, optical-trapping and fluorescence experiments. We found that de-adhesion enhanced membrane height fluctuations of the basal membrane in the presence of an intact cortex. A reduction in the tether-force was also noted at the apical side. However, membrane fluctuations reveal phases of an initial drop in effective tension followed by a saturation. The area fractions of early (Rab5-labelled) and recycling (Rab4-labelled) endosomes as well as transferrin-labelled pits close to the basal plasma membrane also transiently increased. On blocking dynamin-dependent scission of endocytic pits, the regulation of fluctuations was not blocked but proceeded uncontrolled. Interestingly, the regulation could not be suppressed by ATP or cholesterol depletion individually but was arrested on depleting both. The data strongly supports pit-formation to be central to the reduction in fluctuations whether in normal or ATP depleted condition. Furthermore, while in normal conditions the contribution of clathrin-mediated endocytosis is clear, under ATP-depleted conditions we propose that cholesterol-dependent pits spontaneously regulate tension.

show abstract

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Tithi Mandal

Estimate of entropy generation rate can spatiotemporally resolve the active nature of cell flickering

Piezo1 mechanosensing regulates integrin-dependent chemotactic migration in human T cells

Formation of clathrin-pits and ATP-independent cholesterol-dependent tubules initiates mechano-regulation on de-adhesion

Regulation of Endocytosis by Intracellular Membrane Tension Distribution

Formation of clathrin-pits and ATP-independent cholesterol-dependent tubules initiates mechano-regulation on de-adhesion

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