Arshad Muhammad scite author profile

Transforming growth factor-β (TGF-β), a key modulator of endothelial cell apoptosis, must be activated from the latent form (LTGF-β) to induce biological responses. In the present study, we report activation of TGF-β by functional and physical co-operation of the mannose-6-phosphate/insulin-like-growth-factor-II receptor (CD222) and the urokinase-type plasminogen activator receptor (CD87). We show that endothelial cells express CD222 and CD87 in a membrane complex and demonstrate that the association of these two receptors is essential for the release of active TGF-β in the transduced mouse fibroblast used as model cells. By contrast, smooth-muscle cells, which express CD222 and CD87 at similar density to endothelial cells but not in complexed form, do not activate TGF-β. We also have found that mini-plasminogen is a high-affinity ligand for CD222 and is essential for the activation of TGF-β by the CD87-CD222 complex to induce apoptosis in endothelial cells. This specific mechanism of TGF-β-mediated apoptosis in endothelial cells is thus a potential novel target to be considered for treatment of pathological vascular disorders (e.g. tumor angiogenesis).

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Single-molecule microscopy reveals heterogeneous dynamics of lipid raft components upon TCR engagement

Drbal¹,

Moertelmaier

Holzhauser

et al. 2007

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The existence of lipid rafts and their importance for immunoreceptor signaling is highly debated. By non-invasive single molecule imaging, we analyzed the dynamics of the T-cell antigen receptor (TCR), the lipid raft-associated glycosylphosphatidylinositol (GPI) proteins CD48 and CD59 and the major leukocyte phosphatase CD45 in living naive T lymphocytes. TCR triggering induced the immobilization of CD45 and CD48 at different positions within the T-cell interface. The second GPI protein, CD59, did not co-immobilize indicating lipid raft heterogeneity in living T lymphocytes. A novel biochemical approach confirmed that lipid raft components are not associated in the plasma membrane of resting cells, and variably associate with specific receptors to distinct lipid rafts upon activation.

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Sequential Cooperation of CD2 and CD48 in the Buildup of the Early TCR Signalosome

Muhammad

Schiller

Förster

et al. 2009

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The buildup of TCR signaling microclusters containing adaptor proteins and kinases is prerequisite for T cell activation. One hallmark in this process is association of the TCR with lipid raft microdomains enriched in GPI-proteins that have potential to act as accessory molecules for TCR signaling. In this study, we show that GPI-anchored CD48 but not CD59 was recruited to the immobilized TCR/CD3 complex upon activation of T cells. CD48 reorganization was vital for T cell IL-2 production by mediating lateral association of the early signaling component linker for activated T cells (LAT) to the TCR/CD3 complex. Furthermore, we identified CD2 as an adaptor linking the Src protein tyrosine kinase Lck and the CD48/LAT complex to TCR/CD3: CD2 associated with TCR/CD3 upon T cell activation irrespective of CD48 expression, while association of CD48 and LAT with the TCR/CD3 complex depended on CD2. Consequently, our data indicate that CD2 and CD48 cooperate hierarchically in the buildup of the early TCR signalosome; CD2 functions as the master switch recruiting CD48 and Lck. CD48 in turn shuttles the transmembrane adapter molecule LAT.

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Intercellular Adhesions in the Pollen-Stigma System: Pollen Capture, Grain Binding, and Tube Attachments

Ferrari

Best

et al. 1985

American Journal of Botany

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Four independent pollen‐stigma binding forces are differentiated after pollen contacts stigmas of Brassica oleracea var. capitata. Identification is based on their different rates and sequence of appearance during gametophyte development; on their differential occurrence after compatible and incompatible pollinations; and on their different stabilities to NaOH and hexane. The first binding force develops most rapidly, begins seconds after pollen‐stigma contact, is complete within minutes, occurs on compatible or incompatible papillae, and dissociates in methanol. A second slower binding reaction begins about 15 min after contact, continues for at least 90 min (when pollen tubes emerge), results in a binding structure termed the ocreatine, develops only on compatible papillae, and is dissociated by NaOH. A third attractive mechanism binds the tip of the emerging tube to a cuticle, is detected only on incompatible papillae, and is not dissociated by NaOH or methanol. Ocreatine formation and tube development beyond the emergence stage are prevented by the incompatibility response. A fourth attraction mechanism occurs between the surfaces of papilla and elongating tubes. Reviews of physical and biochemical evidence indicate that van der Waals forces and enzymatically mediated lipid polymerization are alternatives to agglutination as mechanisms for binding male gametophyte to papilla.

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Arshad Muhammad

TGF-β-induced apoptosis in endothelial cells mediated by M6P/IGFII-R and mini-plasminogen

Single-molecule microscopy reveals heterogeneous dynamics of lipid raft components upon TCR engagement

Sequential Cooperation of CD2 and CD48 in the Buildup of the Early TCR Signalosome

Intercellular Adhesions in the Pollen-Stigma System: Pollen Capture, Grain Binding, and Tube Attachments

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