Platelets store laminins 411/421 and 511/521 in compartments distinct from α- or dense granules and secrete these proteins via microvesicles.

BACKGROUND: Blood platelets secrete upon activation of laminins 411/421 and 511/521, large adhesive proteins mainly found in the basement membranes of blood vessels and other tissues. At present, the subcellular localization and secretion mechanisms of platelet laminins are largely unknown. OBJECTIVES: Our aim was to compare the subcellular localization of laminins 411/421 and 511/521 and specific granule markers in platelets. We also elucidated the role of microvesicles and exosomes in laminin release in platelet activation. METHODS: We studied laminin and granule marker protein localization in platelets by using immunofluorescence confocal microscopy and immunoelectron microscopy. Microvesicles and exosomes were separated from material released from platelets on activation by thrombin. The expression of laminins in microvesicles and exosomes was studied by using SDS-PAGE and Western blotting as well as by flow cytometric analysis. The exosomes were immunoprecipitated with magnetic microbeads coated with anti-CD63 antibodies. RESULTS AND CONCLUSIONS: We demonstrate that laminins 411/421 and 511/521 are present in compartments of platelets that do not express α-granule, dense granule, or lysosome marker proteins. Moreover, laminins secreted by activated platelets are mostly found in microvesicles shed from the plasma membrane, while their presence in simultaneously released exosomes is minimum.

Dorsoventral compartmentalization of mesoderm in heart-forming area of chick embryo.

In early chick development (stages 5-8) the seemingly homogeneous mesoderm in the heart-forming area splits to somatic and splanchnic cardiogenic layers. Little is known about dorsoventral compartmentalization before splitting. Electron microscopic analysis shows the early dorsoventral polarization of precardiomyocytes. The dorsal compartment has epithelial and the ventral compartment mesenchymal features with numerous protrusions. At stage 5+-6 staining for wheat germ agglutinine (WGA) transiently demarcates the ventral part of mesoderm. The glycosomes (beta-glycogen) show a dorsoventral gradient in the mesoderm of the cardiogenic field during the initial step of the compaction. The differential expression of glycosomes depends on the activity of glycogen synthase kinase 3-beta, a component of the wnt-signaling pathway, and might in this spatiotemporal developmental window be involved in the commitment of presumptive cardiogenic and somatic cells. To verify this hypothesis simulation experiments with LiCl in vitro were carried out. The normal splitting of the mesoderm and the development of heart primordia were disturbed. Blocking the receptors of WGA by WGA in vitro at stage 5-5+ perturbs the migration of mesoderm to anterio-medial direction. It appears that early specification of dorsal and ventral compartments of the mesoderm in the heart-forming area correlates with the gradient of glycosomes. Our results suggest that the target of LiCl action (glycogen synthase kinase 3-beta) might be involved in the specification of heart primordia and that WGA receptors mediate the migration of mesoderm to the anteriomedial direction.