Richard Fleig scite author profile

A promising strategy of bone tissue engineering is to repair bone defects by implanting biodegradable scaffolds that can undergo remodeling and be replaced completely by autologous bone tissue. For this purpose, it is necessary to create scaffolds that can be degraded by osteoclasts and enable osteoblasts to build new mineralized bone matrix. In order to achieve this goal a new porous material has been developed using biomimetically mineralized collagen I. These scaffolds were co-cultured with osteoclast-like cells and osteoblasts in order to characterize the capacity of these cells to remodel the material in vitro. It was possible to show the development of biologically active osteoclast- like cells that were able to invade and degrade the scaffold. They degraded the scaffold by internalizing it as intracellular vesicles, thereby making room for osteoblasts to invade and build new bone matrix. In addition, it could be shown that osteoblasts proliferated, differentiated, and produced new mineralized extracellular matrix. Hence, it could be shown that co-culture of osteoclastlike cells and osteoblasts on biomimetically mineralized collagen I is a promising approach for bone tissue engineering. In addition, it can be applied to study the process of bone remodeling in vitro.

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Comparison of homeobox-containing genes of the honeybee and Drosophila.

Walldorf

Fleig

Gehring

1989

Proc. Natl. Acad. Sci. U.S.A.

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Engrailed expression and body segmentation in the honeybee Apis mellifera

Fleig¹

1990

Roux's Arch Dev Biol

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Honeybee embryos were stained with a monoclonal antibody raised against the Drosophila engrailed protein. The antibody was found to label rows of nuclei in the transverse grooves that form the earliest external sign of metameric germ band organization. These grooves demarcate metameric units about seven cell rows wide, of which about three rows with reduced apical cell surfaces account for the grooves. The en stripes appear in the grooves as soon as these form and grow from one to about four cells in width and thus completely overlap the groove. During the rudimentary germ band retraction, the grooves shift slightly backwards relative to both the en stripes and the trachdeal pits. The spatio-temporal pattern by which the series of grooves and stripes arises is quite striking. Both become visible first in the gnathal and thoracic regions, then in the pregnathal parts of the head and in the abdomen. The stripes arise essentially in an antero-posterior sequence. In addition, the earliest stripes to form display a pattern of alternating intensities whereas the later stripes, those in the abdomen, arise with approximately equal strength. The latter trait was earlier observed in the grasshopper, while the former is known from Drosophila where, however, the strong stripes correspond to the weak stripes in the honeybee.

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Oogenesis in the honeybee Apis mellifera: cytological observations on the formation and differentiation of previtellogenic ovarian follicles

Gutzeit

Zissler

Fleig

1993

Roux's Arch Dev Biol

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Oogenesis is known to be important for embryonic pattern formation. For this reason we have studied the early differentiation of the honeybee ovariole histologically, ultrastructurally, and by staining F-actin with rhodaminyl-phalloidin. At the anterior tip of the ovariole, stem cells are lined up in a single file; they are organelle-poor but contain characteristic electrondense bodies with lysosomal properties. The presence of these bodies in cystocytes as well as prefollicle cells indicates that both cell types may be derived from the apical stem cells. During later stages of oogenesis, the follicle cells differentiate cytologically in different regions of the follicle. The organization of the intercellular bridges between cystocytes derived from a single cystoblast has been studied in detail. The polyfusomes in the intercellular bridges of cystocyte clusters stain with rhodaminyl-phalloidin and hence contain F-actin. Later, when the polyfusomes begin to desintegrate, F-actin rings form which line the rims of the intercellular bridges. Actin might be recruited from conspicuous F-actin stores which were detected in the germ-line cells. The F-actin rings are dissembled some time before the onset of vitellogenesis when the nurse chamber has grown to a length of about 200 μm. At the basal side of the follicle cells (close to the basement membrane facing the haemocdele) parallel microfilament bundles encircle the ovariole. The microfilament bundles which are oriented mostly perpendicular to the long axis of the ovariole were first observed around the zone where the cystocyte divisions occur; after this phase the micro-filament bundles become organized differently in the follicle cells associated with the nurse cells and in the follicular epithelium of the oocyte.

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Richard Fleig

Embryogenesis of the honeybee apis mellifera l. (hymenoptera : apidae): An sem study

In VitroOssification and Remodeling of Mineralized Collagen I Scaffolds

Comparison of homeobox-containing genes of the honeybee and Drosophila.

Engrailed expression and body segmentation in the honeybee Apis mellifera

Oogenesis in the honeybee Apis mellifera: cytological observations on the formation and differentiation of previtellogenic ovarian follicles

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