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1

Electronic Resource

Immunocytochemical demonstration of calmodulin in cells secreting by exocytosis (1985)

Egsmose, C. ; Bock, E. ; Møllgård, K. ; [et al.]

Springer

Cellular and molecular life sciences 41 (1985), S. 1340-1342

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ISSN: 1420-9071

Keywords: Immunocytochemistry ; calmodulin ; secretory granules

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Calmodulin is a regulator of several calcium-dependent cellular processes. It has been suggested that it plays a role in the mechanism of secretion. Employing an indirect immunoperoxidase technique at the light microscope level, this study demonstrates the presence of calmodulin in several exocytotic cells (mast cells, thyroid follicular cells, neurohypophyseal neurosecretory terminals, pancreaticβ-cells and pancreatic acinus cells) in rat and man. The positive staining reaction for calmodulin was granular and at least in the case of rat mast cells it appeared to be associated with the granule membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01952085

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2

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The distribution of plasma proteins during early embryonic development in the sheep (1983)

Reynolds, M. L. ; Møllgård, K. ; Saunders, N. R.

Springer

Anatomy and embryology 168 (1983), S. 227-240

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ISSN: 1432-0568

Keywords: Plasma proteins ; Embryo ; Development ; Immunohistochemistry ; Sheep

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The distribution of the five plasma proteins that are quantitatively most important during development in the sheep has been studied in embryos of 15 to 21 days gestation. The three primary embryonic layers and tissues that differentiate from them were tested for the presence of α-fetoprotein (AFP), fetuin, albumin, transferrin and α1-antitrypsin using the indirect immunoperoxidase method. Fetuin was the most prominent of these proteins particularly in the developing central nervous system. Fetuin and transferrin appeared early in the differentiating mesoderm and, with albumin and AFP, were detected in tissues originating from all three layers during the course of development. α1-Antitrypsin appeared to have a limited distribution. All five plasma proteins were detected before the establishment of a circulatory system. It is suggested that their appearance in embryonic tissue is related to its stage of development and that they play an important part in early differentiation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00315818

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3

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The distribution of plasma proteins in the neocortex and early allocortex of the developing sheep brain (1985)

Reynolds, M. L. ; Møllgård, K.

Springer

Anatomy and embryology 171 (1985), S. 41-60

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ISSN: 1432-0568

Keywords: Plasma proteins ; Brain development ; Neocortex ; Allocortex ; Immunohistochemistry ; Sheep

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The histogenesis of the cerebral neocortex and early allocortex of the sheep has been described and, using an immunohistochemical technique, five plasma proteins have been identified in the telencephalic wall and their distribution followed during its differentiation. The development of the neocortex was studied from 18 days gestation, when the neural tube was still open, to 120 days, when the adult structure was established. A primordial plexiform layer was formed above the ventricular zone by 25 days and by 35 days this layer was divided by the differentiating cortical plate into an outer marginal zone and an inner subplate zone. The appearance of the subventricular and intermediate zones by 50 days gestation completed the formation of the neocortical layers. The differentiation of the allocortex was generally less advanced than the neocortex up to 40 days gestation, when the primordium of the pyramidal layer was beginning to develop. The five plasma proteins identified, fetuin, α-fetoprotein, albumin, transferrin and α1-antitrypsin, are quantitatively the most important in the csf and plasma of the sheep fetus. Fetuin was the earliest plasma protein to be detected in the brain and it was also the most widespread; positive staining for this protein was seen in cells and fibres of all layers as they differentiated and could still be identified in some mature neurons at 120 days. α-Fetoprotein and albumin had a limited distribution, appearing in cells in the developing cortical plate for a short period early in gestation (35–40 days), but mainly confined to the ventricular zones later and barely detectable by 80 days gestation. Transferrin appeared to have a different distribution, being detected in fibres first in the primordial plexiform layer and then in the marginal and subplate zones, only later being identified in cells of the cortical plate. From their distribution it is suggested that fetuin and transferrin may play an important role in the differentiation of the cortex and the establishment of correct connections between fiber systems and migrating cells at certain stages of development. α1-Antitrypsin was only found in a few cells during a restricted period of gestation. All five plasma proteins were identified in precipitated csf and plasma at most ages examined, although at 18 days gestation albumin, transferrin and α1-antitrypsin and at 120 days, α-fetoprotein, could not be detected. The pattern of distribution of plasma proteins in the telencephalic wall suggests that they could originate either by uptake from csf and subsequent migration of protein containing cells or by local synthesis within some cells during a limited period of differentiation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00319053

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4

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Monodelphis domestica (grey short-tailed opossum): an accessible model for studies of early neocortical development (1989)

Saunders, N. R. ; Adam, E. ; Reader, M. ; [et al.]

Springer

Anatomy and embryology 180 (1989), S. 227-236

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ISSN: 1432-0568

Keywords: Neocortical development ; Marsupial ; Opossum ; Monodelphis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The development of the neocortex of the marsupial Monodelphis domestica has been studied from birth until adulthood. Monodelphis is born after a gestational period of 14 days, a time when the neocortex is still at a two-layered “embryonic’ stage of development, that is equivalent to a 13–14 day rat embryo or 6 week human embryo. The cortical plate does not begin to appear until 3 to 5 days postnatal. Thus the whole of neocortical development is a postnatal phenomenon in this species, as has been previously described in other marsupials. The general pattern of development of the characteristic layers of the immature neocortex and the subsequent development of a six-layered adult neocortex is similar to that found in eutherian species. However there are some differences. The depth of the immature cortical plate when compared to the thickness of the neocortical wall is less than in eutherians and the subplate zone is much deeper in Monodelphis; this transient subplate zone consists of widely spaced rows of cells that are aligned parallel to the cortical surface. Unlike eutherians there appears to be no secondary proliferative zone in the subventricular zone of the dorso-lateral neocortical wall. Maturation of the neocortex is apparent by 45 days postnatal and by 60 days (around the time of weaning) the characteristic six-layered adult neocortex is clearly present. The neuronal marker PGP 9.5 was used to define neuronal populations in the adult brain. The density of neurons in Monodelphis appears to be considerably less than in eutherians such as the rat. The suitability of postnatal Monodelphis for studies of neocortical development is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00315881

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5

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Intercellular barriers to and transcellular transfer of albumin in the fetal sheep brain (1997)

Balslev, Y. ; Dziegielewska, K. M. ; Møllgård, K. ; [et al.]

Springer

Anatomy and embryology 195 (1997), S. 229-236

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ISSN: 1432-0568

Keywords: Key words Blood-brain barrier ; Cerebrospinal fluid ; Fetus ; Protein transport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The nature of the barriers that keep proteins out of the developing brain has been studied in tissues obtained from fetal sheep in experiments conducted under controlled physiological conditions. In anaesthetised pregnant ewes, 60 day gestation fetuses (term is 150 days) were exposed to human albumin injected intravenously for periods up to 6 h. The immunocytochemical distribution of exogenous human albumin was compared with that of endogenous sheep albumin at both the light and electron-microscopical level. Immunogold labelling of ultracryosections suggests that a tubulocisternal endoplasmic reticulum system in immature choroid-plexus epithelial cells is the route by which albumin crosses from blood to cerebrospinal fluid (CSF) in the developing brain. The integrity of the blood-brain barrier, the blood-cerebrospinal fluid barrier and the cerebrospinal fluid-brain barrier to protein, was confirmed. In addition, at the outer surface of the developing brain there also appears to be a restriction on the passage of albumin from CSF into the brain. These observations support earlier proposals that the immature brain develops within an internal environment from which proteins in plasma and CSF are largely excluded.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004290050042

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6

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The early development of the pars distalis of human foetal pituitary gland (1971)

Andersen, H. ; Bülow, F. A. ; Møllgård, K.

Springer

Anatomy and embryology 135 (1971), S. 117-138

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ISSN: 1432-0568

Keywords: Embryology ; Human adenohypophysis ; Progenitor cell and canaliculi ; Follicular structures ; Histocytochemistry ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A histochemical and ultrastructural investigation of the early development of the adenohypophysis was carried out on a human material. Special attention was paid to an accumulation of hyaluronic acid and chondroitin-4-and/or-6-sulfate in the mesenchyma; its role in morphogenesis of the Rathke's pouch is discussed. The role of the vessels as a “critical factor” in the budding of the parenchyma and in the differentiation of secretory cells is discussed. Canalicular extensions from the original lumen of the pouch into the core of parenchymal buds, which migrate into the mesenchyma, is a new observation. The participation of canaliculi in formation of follicular structures of pars distalis is described and discussed. The primitive cell type lining the pouch is also found in the wall of canaliculi and follicular structures. The cell type is described and its role as the real progenitor cell of the adenohypophysis is discussed. Three types of colloid are noticed in pars distalis: 1. In the follicular structures, 2. in the slits or clefts caused by partial occlusion of the lumen of the pouch, and 3. mesenchymal extravasal colloid presumably representing material squeezed out from the aforementioned clefts or slits. It is concluded that the colloid contains material secreted from different types of granulated cells as well as material from the surface coat of the luminal cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00525197

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7

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Rat fetuin: distribution of protein and mRNA in embryonic and neonatal rat tissues (1998)

Terkelsen, O. B. F. ; Jahnen-Dechent, W. ; Nielsen, H. ; [et al.]

Springer

Anatomy and embryology 197 (1998), S. 125-133

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ISSN: 1432-0568

Keywords: Key words Blood proteins ; Alpha-globulins ; Fetal development ; Cell differentiation ; Embryo

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Fetuin is a serum protein widely distributed in the animal kingdom and found in all mammalian species so far investigated. It is mainly a fetal protein, in the sense that the highest concentrations are found in serum and body fluids of embryos and fetuses. In order to elucidate possible biological functions of fetuin, we have studied its synthesis and distribution during the prenatal development of the rat with immunohistochemistry and in situ hybridization. We have isolated fetuin from rat serum and produced an antibody against this protein. In situ hybridization was performed using a 375-nucleotides-long digoxigenin-labeled riboprobe. Fetuin was unevenly distributed in all organ systems during development, with the most pronounced expression at E 10Fetuin is a serum protein widely distributed in the animal kingdom and found in all mammalian species so far investigated. It is mainly a fetal protein, in the sense that the highest concentrations are found in serum and body fluids of embryos and fetuses. In order to elucidate possible biological functions of fetuin, we have studied its synthesis and distribution during the prenatal development of the rat with immunohistochemistry and in situ hybridization. We have isolated fetuin from rat serum and produced an antibody against this protein. In situ hybridization was performed using a 375-nucleotides-long digoxigenin-labeled riboprobe. Fetuin was unevenly distributed in all organ systems during development, with the most pronounced expression at E16–E18. Fetuin expression was present in germinal cell populations, e.g., in the basal layer in the skin, in the germinal cell populations in the brain anlage and the gonads, and it was heavily expressed in the fetal hemopoietic liver. Furthermore, fetuin was expressed in the gastrointestinal epithelium prior to the development of glands and crypts. Fetuin was widely distributed in mesenchymal derived tissues, e.g., bone and muscle. In the developing kidney fetuin was heavily expressed is both mesenchymal condensations and glomerular anlages. Thus, fetuin was located in cells or structures undergoing differentiation and transformation. As fetuin has been shown previously to interfere with hormone signaling of transforming growth factor-β, insulin and hepatocyte-growth factor, fetuin might be involved in cell differentiation and tissue transformation during the initial histogenesis, i.e., the time period in which cellular phenotypic characteristics are established.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004290050124

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8

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NCAM and Thy-1 in special sense organs of the developing mouse (1989)

Terkelsen, O. B. F. ; Bock, E. ; Møllgård, K.

Springer

Anatomy and embryology 179 (1989), S. 311-318

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ISSN: 1432-0568

Keywords: NCAM ; Thy-1 ; Immunocytochemistry ; Organs of special sense ; Mouse embryo

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The distribution of the neural cell adhesion molecule (NCAM) and Thy-1 in the olfactory mucosa and olfactory bulb, the eye and the inner ear was examined with immunocytochemistry in mouse embryos from embryonic day 12 (E 12) to embryonic day 19 (E 19). In general, neurons are completely outlined with NCAM, whereas Thy-1 outlines only dendrites and axons. A variable cytoplasmic staining for Thy-1 is present in the perikarya. Neurons directly associated with special sense organs express NCAM and Thy-1 already from the earliest stage and throughout the period investigated, apart from the olfactory neurons in which Thy-1 disappears at E 19. The mitral cells in the olfactory bulb show Thy-1 but no NCAM reactivity. In the eye, lens fibers express Thy-1 and the pigmented layer expresses NCAM; neither of the two molecules can be detected at E 19. In the inner ear, hair cells express NCAM at E 19. Based on the distribution during the developmental period studied and on the cellular localisation of reaction products, it is suggested that the NCAM adhesion function could be of a more general nature by keeping appropriate cell membranes in close contact and thereby allowing more specific molecular interactions to take place. Thy-1, which is located on dendrites and axons, could be such a specific factor and function as recognition molecule in the developing nervous system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305057

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Morphological aspects of some sodium transporting epithelia suggesting a transcellular pathway via elements of endoplasmic reticulum (1978)

Møllgård, K. ; Rostgaard, J.

Springer

The journal of membrane biology 40 (1978), S. 71-89

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Electron microscopic studies of sodium transporting epithelia from frog skin, sheep choroid plexus, rabbit gallbladder and small intestine, and rat kidney revealed the presence of a complex intracellular system of tubulo-cisternal endoplasmic reticulum which appeared to connect apical (luminal) and baso-lateral cell surfaces. The system was present in the tight epithelium of frog skin but was most abundant in leaky epithelia with low transepithelial resistance and isotonic transport. The basic structural features of the system and its relationship with some associated components are described. Our result, coupled with preliminary physiological studies, indicate that developmental and seasonal (hormone-induced) changes in the configuration of the tubulo-cisternal endoplasmic reticulum may be closely correlated with specific changes in epithelial permeability. The findings are discussed in the light of the hypothesis that epithelia possess two sodium transporting systems: One based on pump sites in the plasma membrane producing a hypertonic transportate and another located in the membranes of the tubulo-cisternal endoplasmic reticulum which, due to its extensive surface, would be well suited for producing an isotonic transportate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02025999

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Quantitative relationship between active sodium transport, expansion of endoplasmic reticulum and specialized vacuoles (“scalloped sacs”) in the outermost living cell layer of the frog skin epithelium (Rana temporaria) (1975)

Voûte, C. L. ; Møllgård, K. ; Ussing, H. H.

Springer

The journal of membrane biology 21 (1975), S. 273-289

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary When an isolated frog skin (Rana temporaria) is exposed to a hydrostatic pressure difference between inside and outside bathing solutions (inside pressure higher than outside) of 20–50 cm of H2O and if under these conditions the skin is short-circuited electrically, small “vacuoles” appear light-microscopically in the outermost living cell layer in the epithelium. The number of such “vacuoles” shows a linear dependency on the rate of active sodium transport as measured by the short-circuit current. Electron-microscopically, the “vacuoles” are interpreted as previously undescribed organelles, the “scalloped sacs” which are about 0.5 μ in diameter, with a wrinkled surface and bounded by a unit membrane. This organelle is in intimate contact with sacs and tubules of smooth endoplasmic reticulum. The observed increase in the number of scalloped sacs usually is accompanied by a significant expansion of the whole system of endoplasmic reticulum. Some of the “vacuoles” seen light-microscopically must indeed be expanded cisternae of endoplasmic reticulum. The findings are discussed in light of the possibility that the scalloped sacs and the endoplasmic reticulum may be involved in active transport of sodium ions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01941072

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