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1.
Nat Methods ; 13(8): 661-4, 2016 08.
Artigo em Inglês | MEDLINE | ID: mdl-27295310

RESUMO

We present a method to robustly discriminate clustered from randomly distributed molecules detected with techniques based on single-molecule localization microscopy, such as PALM and STORM. The approach is based on deliberate variation of labeling density, such as titration of fluorescent antibody, combined with quantitative cluster analysis, and it thereby circumvents the problem of cluster artifacts generated by overcounting of blinking fluorophores. The method was used to analyze nanocluster formation in resting and activated immune cells.


Assuntos
Artefatos , Membrana Celular/metabolismo , Corantes Fluorescentes/química , Proteínas de Membrana/metabolismo , Microscopia de Fluorescência/métodos , Nanoestruturas/química , Animais , Anticorpos Monoclonais/química , Células CHO , Análise por Conglomerados , Cricetulus , Humanos , Células Jurkat , Luz , Proteínas de Membrana/química
2.
Biophys J ; 106(9): L33-5, 2014 May 06.
Artigo em Inglês | MEDLINE | ID: mdl-24806941

RESUMO

Transmembrane proteins are synthesized and folded in the endoplasmic reticulum (ER), an interconnected network of flattened sacs or tubes. Up to now, this organelle has eluded a detailed analysis of the dynamics of its constituents, mainly due to the complex three-dimensional morphology within the cellular cytosol, which precluded high-resolution, single-molecule microscopy approaches. Recent evidences, however, pointed out that there are multiple interaction sites between ER and the plasma membrane, rendering total internal reflection microscopy of plasma membrane proximal ER regions feasible. Here we used single-molecule fluorescence microscopy to study the diffusion of the human serotonin transporter at the ER and the plasma membrane. We exploited the single-molecule trajectories to map out the structure of the ER close to the plasma membrane at subdiffractive resolution. Furthermore, our study provides a comparative picture of the diffusional behavior in both environments. Under unperturbed conditions, the majority of proteins showed similar mobility in the two compartments; at the ER, however, we found an additional 15% fraction of molecules moving with 25-fold faster mobility. Upon degradation of the actin skeleton, the diffusional behavior in the plasma membrane was strongly influenced, whereas it remained unchanged in the ER.


Assuntos
Membrana Celular/metabolismo , Retículo Endoplasmático/metabolismo , Imagem Molecular , Proteínas da Membrana Plasmática de Transporte de Serotonina/metabolismo , Animais , Células CHO , Cricetinae , Cricetulus , Difusão , Humanos , Temperatura
3.
Cells ; 10(2)2021 01 25.
Artigo em Inglês | MEDLINE | ID: mdl-33504075

RESUMO

T-cell antigen recognition is accompanied by extensive morphological rearrangements of the contact zone between the T-cell and the antigen-presenting cell (APC). This process involves binding of the T-cell receptor (TCR) complex to antigenic peptides presented via MHC on the APC surface, the interaction of costimulatory and adhesion proteins, remodeling of the actin cytoskeleton, and the initiation of downstream signaling processes such as the release of intracellular calcium. However, multiparametric time-resolved analysis of these processes is hampered by the difficulty in recording the different readout modalities at high quality in parallel. In this study, we present a platform for simultaneous quantification of TCR distribution via total internal reflection fluorescence microscopy, of intracellular calcium levels, and of T-cell-exerted forces via atomic force microscopy (AFM). In our method, AFM cantilevers were used to bring single T-cells into contact with the activating surface. We designed the platform specifically to enable the study of T-cell triggering via functionalized fluid-supported lipid bilayers, which represent a widely accepted model system to stimulate T-cells in an antigen-specific manner. In this paper, we showcase the possibilities of this platform using primary transgenic T-cells triggered specifically via their cognate antigen presented by MHCII.


Assuntos
Biofísica , Imageamento Tridimensional , Ativação Linfocitária/imunologia , Linfócitos T/imunologia , Animais , Sinalização do Cálcio , Camundongos Transgênicos
4.
Nat Commun ; 6: 6969, 2015 Apr 21.
Artigo em Inglês | MEDLINE | ID: mdl-25897971

RESUMO

The organization of proteins and lipids in the plasma membrane has been the subject of a long-lasting debate. Membrane rafts of higher lipid chain order were proposed to mediate protein interactions, but have thus far not been directly observed. Here we use protein micropatterning combined with single-molecule tracking to put current models to the test: we rearranged lipid-anchored raft proteins (glycosylphosphatidylinositol(GPI)-anchored-mGFP) directly in the live cell plasma membrane and measured the effect on the local membrane environment. Intriguingly, this treatment does neither nucleate the formation of an ordered membrane phase nor result in any enrichment of nanoscopic-ordered domains within the micropatterned regions. In contrast, we find that immobilized mGFP-GPIs behave as inert obstacles to the diffusion of other membrane constituents without influencing their membrane environment over distances beyond their physical size. Our results indicate that phase partitioning is not a fundamental element of protein organization in the plasma membrane.


Assuntos
Membrana Celular/metabolismo , Glicosilfosfatidilinositóis/metabolismo , Proteínas Ligadas a Lipídeos/metabolismo , Antígenos CD59/química , Antígenos CD59/metabolismo , Carcinoma/metabolismo , Linhagem Celular Tumoral , Glicosilfosfatidilinositóis/química , Proteínas de Fluorescência Verde , Humanos , Fragmentos Fab das Imunoglobulinas , Proteínas Ligadas a Lipídeos/química , Estrutura Terciária de Proteína
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