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1

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Interrelationship of renal vascular development and nephrogenesis (1994)

Kloth, Sabine ; Aigner, Joachim ; Schmidbauer, Anita ; [et al.]

Springer

Cell & tissue research 277 (1994), S. 247-257

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ISSN: 1432-0878

Keywords: Kidney ; Vascular system ; Development, ontogenetic ; Vasculogenesis ; Endothelium-dectecting antibodies ; Rabbit

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Within the cortex region of the neonatal rabbit kidney the developing microvasculature was investigated by means of two endothelium-detecting antibodies (EnPo 1 and EC1). Rows of antibody-labelled cells were found within tissue regions that had previously been described as avascular. We conclude that these vessel-like structures detected by EnPo 1 and EC1 are capillary precursors without lumina. Furthermore, beneath the fibrous capsule within the morphologically homogeneous mesenchyme two cell populations can be discriminated by use of differential antigen expression. The EnPo 1 antigen, which is abundant on endothelial cells and podocytes at different developmental stages, was detected on a subpopulation of mesenchymal cells. These cells were exclusively detected surrounding the tip of the collecting duct ampulla. Due to the unique specificity of EC1 and EnPo 1 the process of microvascular development can be readily followed on serial optical sections gained by laser scan microscopy. (1) Adjacent to EnPo 1-positive mesenchymal cell islets vessel-like structures are found that are in contact with the differentiated vasculature. (2) The renal vesicle is enclosed by a network of vessel-like structures establishing contact with differentiated vessels. (3) No guidance of invading capillary sprouts toward the developing glomerulus and nephron is required, since vascular elements already accompany the earliest detectable nephron stage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00327772

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2

Electronic Resource

Interrelationship of renal vascular development and nephrogenesis (1994)

Kloth, Sabine ; Aigner, Joachim ; Schmidbauer, Anita ; [et al.]

Springer

Cell & tissue research 277 (1994), S. 247-257

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ISSN: 1432-0878

Keywords: Key words: Kidney ; Vascular system ; Development ; ontogenetic ; Vasculogenesis ; Endothelium-dectecting antibodies ; Rabbit

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. Within the cortex region of the neonatal rabbit kidney the developing microvasculature was investigated by means of two endothelium-detecting antibodies (EnPo 1 and EC1). Rows of antibody-labelled cells were found within tissue regions that had previously been described as avascular. We conclude that these vessel-like structures detected by EnPo 1 and EC1 are capillary precursors without lumina. Furthermore, beneath the fibrous capsule within the morphologically homogeneous mesenchyme two cell populations can be discriminated by use of differential antigen expression. The EnPo 1 antigen, which is abundant on endothelial cells and podocytes at different developmental stages, was detected on a subpopulation of mesenchymal cells. These cells were exclusively detected surrounding the tip of the collecting duct ampulla. Due to the unique specificity of EC1 and EnPo 1 the process of microvascular development can be readily followed on serial optical sections gained by laser scan microscopy. (1) Adjacent to EnPo 1-positive mesenchymal cell islets vessel-like structures are found that are in contact with the differentiated vasculature. (2) The renal vesicle is enclosed by a network of vessel-like structures establishing contact with differentiated vessels. (3) No guidance of invading capillary sprouts toward the developing glomerulus and nephron is required, since vascular elements already accompany the earliest detectable nephron stage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410050152

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3

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Tissue engineering: generation of differentiated artificial tissues for biomedical applications (1997)

Minuth, W. W. ; Sittinger, Michael ; Kloth, Sabine

Springer

Cell & tissue research 291 (1997), S. 1-11

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ISSN: 1432-0878

Keywords: Key words Tissue engineering ; Differentiation ; Organotypical environment ; Perfusion culture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract A new field in biomedical science has been established. Cell biologists, engineers, and surgeons now work within a team. Artificial connective, epithelial, or neuronal tissues are being constructed using living cells and different kinds of biomaterials. Numerous companies and laboratories are presenting dynamic developments in this field. Prognoses predict that, at the beginning of the coming century, the industry of tissue engineering will reach the importance of the present genetic technology. An enormous demand for organ and tissue transplants motivates research activities and drives the acquisition of innovative techniques and creative solutions. At the front of this development is the creation of artificial skin for severely burned patients and the generation of artificial cartilage for implantation in articular joint diseases. Future challenges are the construction of liver organoids and the development of an artificial kidney on the basis of cultured cells. In this paper we show strategies, needs, tools, and equipment for tissue engineering. The presupposition for all projects is the induction, development, and maintenance of differentiation within the tissue under in vitro conditions. As experiments in conventional culture dishes continued to fail, new cell and tissue culture methods had to be developed. Tissues are cultured under conditions as close as possible to their natural environment. To optimize adherence or embedding, cells are grown on novel tissue carriers and on individually selected biomatrices or scaffolds. The tissues are subsequently transferred into different types of containers for permanent perfusion with fresh culture medium. This guarantees constant nutrition of the developing tissue and prevents the accumulation of harmful metabolites. An organo-typical environment for epithelial cells, for example, is obtained in gradient containers, which are permanently superfused at the apical and basal sides with different media. Long term experiments result in cultured tissues in a quality thus far unreached.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410050974

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4

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Three-dimensional organization of the developing vasculature of the kidney (1996)

Kloth, Sabine ; Ebenbeck, Claudia ; Monzer, Jan ; [et al.]

Springer

Cell & tissue research 287 (1996), S. 193-201

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ISSN: 1432-0878

Keywords: Key words: Kidney ; Development ; Vascular system ; Endothelium-detecting antibodies ; Rabbit

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. Kidney function depends on a well-developed vascular system. Any impairment of the blood supply disturbs the integrity and function of the organ. The differentiation of renal vessels has been investigation for many years, but little is known about the relationship between nephrogenesis and vessel development. In the present work the spatial organization of the differentiating vessels was analyzed in precisely oriented tissue sections and in optical sections acquired by laser scan microscopy. Developing vessels as well as small capillaries were visualized with two endothelium-detecting antibodies. Small vessels running in parallel towards the organ capsule were detected in numerous cortico-medullary-oriented tissue sections. Cross-sections of the nephrogenic zone showed a regularly arranged network, which was composed of cells detected by both monoclonal antibodies. Parts of this network were localized in regions of the nephrogenic zone which have been assumed to be free of vessels or vessel-like structures for a long time. These results were confirmed by the laser-scan-microscopic analysis of complete cortex explants. The extraordinarily regular arrangement of the endothelial network in the nephrogenic zone allowed us to reconstruct the developing vascular system. The results presented here underline the close relationship between nephrogenesis and vessel development.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410050745

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5

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Existence of a dense reticular meshwork surrounding the nephron inducer in neonatal rabbit kidney (1999)

Strehl, Raimund ; Trautner, Verena ; Kloth, Sabine ; [et al.]

Springer

Cell & tissue research 298 (1999), S. 539-548

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ISSN: 1432-0878

Keywords: Kidney Collecting duct Ampulla Development Basement membrane Scanning electron microscopy Transmission electron microscopy Rabbit (New Zealand)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. While more and more humoral factors involved in nephrogenesis are being discovered, there is no detailed knowledge of the morphological structures at the interface of the nephron inducer and the surrounding mesenchyme. For that reason we examined this area in the cortex of neonatal rabbit kidneys by scanning electron-microscopical and transmission electron-microscopical techniques. Our interest was focused on the basal aspect of the collecting duct ampulla and the surrounding competent mesenchyme, where morphogenic signals are to be exchanged during nephron induction. Close contact between these two tissues involved in nephrogenesis is assumed to allow direct cellular contact or diffusion of soluble factors across a short distance. Our data, however, show the presence of a dense fibrillar meshwork around the collecting duct ampulla, spatially separating the inducer and the competent mesenchyme during nephron induction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004419900116

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6

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Changes in carbohydrates and ultrastructure in xylem ray cells ofPopulus in response to chilling (1987)

Sauter, J. J. ; Kloth, Sabine

Springer

Protoplasma 137 (1987), S. 45-55

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ISSN: 1615-6102

Keywords: Carbohydrates ; Chilling effects ; Populus ; Sugars ; Ultrastructure ; Xylem ray cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The ultrastructure of xylem ray cells inPopulus was studied in conjunction with their content of individual sugars and of starch. They differ considerably in structure and in carbohydrate content at the three chosen stages,i.e., of starch deposition (August), of starch maximum (November), and of starch dissolution (January). The transition from the summer to winter stage was also induced experimentally by storage of tissue at 0°C. Both in nature and after cold-storage, sucrose and its galactosides raffinose and stachyose were accumulated to a great extent, contributing up to 69.7 and 57.3% of total sugar content, respectively. They originated parallel to the breakdown of starch and to the appearance of abundant vesicular and dilated ER cisternae. Results indicating that they are the specific sites of sucrose accumulation, and/or its galactosides, are discussed. The occurrence of phytoferritin-like crystalloids in amyloplasts and of vacuolar flocculent material, which condenses into electron-dense bodies of suspectedly proteinaceous nature, is described.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281175

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