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1

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Ultrastructural observations on closure of the neural tube in the mouse (1979)

Geelen, Jan A. G. ; Langman, Jan

Springer

Anatomy and embryology 156 (1979), S. 73-88

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ISSN: 1432-0568

Keywords: Closure ; Development ; Mammalina embryo ; Neural tube ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The fusion of the neural walls in the cephalic part of mouse embryos varying in age from 9 to 20 somites was examined with the electron microscope. In the rhombencephalic region the rim of the neural wall was formed from outside inward by ectodermal surface cells, a row of flattened cells without surface projections and neuroepithelial cells. At the junction of the surface ectoderm and the flat cells were seen large projections containing a cytoplasmic matrix without organelles and previously referred to as “ruffles”. The initial contact between the walls was made by the large cytoplasmic arms and numerous finger-like projections interdigitating with similar projections from the opposite wall. The projections originated from the surface ectoderm and possibly neural crest cells. During further fusion the surface ectoderm cells formed dense membrane specializations, thus establishing a firm contact. The initial contact in the mesencephalon was formed by extensions from the surface ectoderm and was followed by the formation of specialized membrane junctions, as seen between the surface ectoderm in the rhombencephalon. The neuroepithelial cells facing the gap between the neural walls with their apical ends made contact with the cells from the opposing wall by numerous finger-like projections but membrane specializations failed to develop. The closing mechanism in the prosencephalon and anterior neuropore regions differed from the previous areas in that the initial contact was established by the neuroepithelial cells. Only after this contact had been formed did the surface ectoderm cells close the gap. In contrast with the other areas many phagocytosed particles were seen in the prosencephalon and in the region of the anterior neuropore. Many particles from degenerated cells were found inside healthy surrounding cells. Some of these particles contained nuclear material and cytoplasmic organelles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00315716

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2

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The influence of excess vitamin A on neural tube closure in the mouse embryo (1980)

Geelen, Jan A. G. ; Langman, Jan ; Lowdon, Joseph D.

Springer

Anatomy and embryology 159 (1980), S. 223-234

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ISSN: 1432-0568

Keywords: Vitamin A ; Neural tube closure ; Exencephaly ; Anencephaly

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of excess vitamin A on the closure of the neural tube in mouse embryos was examined with light microscopy, transmission and scanning electronmicroscopy. The embryos were treated with the vitamin just before closure of the brain vesicles and examined during the following 24 h, a period during which under normal conditions the brain completely closes. At 18–24 h after treatment the external features of the treated specimens began to differ from those of the controls. In the treated embryos the neural walls folded laterally and became widely separated, whereas those of the controls folded dorsomedially and fused in the midline. Histologically, the first difference between treated and control embryos was noted at two hours after treatment, when large intercellular spaces appeared between the neuroepithelial cells of the treated embryos. These spaces were mainly present between the apical ends of the wedge-shaped neuroepithelial cells. This accumulation of intercellular spaces interfered with the normal morphogenetic movement of the neural walls, which remained convex instead of becoming concave. This convex bending resulted in non-closure of the neural tube. In addition to the appearance of large intercellular spaces some neuroepithelial cells as well as some mesenchymal, endothelial, and surface ectoderm cells showed swelling and degeneration as a result of the vitamin A treatment. This cell degeneration probably contributes to failure of the neural tube to close due to loss of cohesion at the luminal surface and the lack of mesenchymal support needed for the elevation of the neural walls. However, the increase of intercellular spaces at the apical side of the neuroepithelium is in all probability the major cause for the failure of the neural tube to close.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00304980

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3

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Fusion of nasal swellings in the mouse embryo (1980)

Gaare, John D. ; Langman, Jan

Springer

Anatomy and embryology 159 (1980), S. 85-99

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ISSN: 1432-0568

Keywords: Nasal development ; Epithelial fusion ; Nasal fin regression ; DNA synthesis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Fusion between the epithelial linings of the medial and lateral nasal swellings transforms the nasal groove into a primitive nasal cavity and forms an epithelial seam, the nasal fin, in the line of contact. Epithelial contact occurs between a restricted group of opposing epithelial cells; adjacent eithelial cells do not fuse but form the linings of the nasal and oral cavities. After its formation, the epithelial nasal fin regresses and is replaced by mesenchymal cells, except for a small posterior portion which remains as the bucconasal membrane. DNA synthesis at 3 different periods (20, 10 and 5 h) before contact on day 11 3/4 was examined in the fusing epithelia and adjacent non-fusing epithelia. DNA synthetic activity decreased in both regions at successive stages of development. Howerer, the decrease in the presumptive fusing epithelia at 10 and 5 h before contact was noteworthy in that it was significantly greater than in the non-fusing epithelia. In the fusing epithelia this decrease of DNA synthetic activity occurred not only in prospective degenerating cells, but was a general phenomenon involving viable cells also. To analyze the regression of the nasal fin, it was studied in serial sections. The majority of the cells were viable and only few degenerating cells were seen, suggesting that not all cells of the nasal fin undergo necrosis. Since the epithelial cells of the nasal fin always appeared to be separated from the surrounding mesenchymal cells, the transformation of surviving cells into mesenchymal cells appears unlikely. It is postulated that surviving epithelial cells are incorporated into the adjacent epithelia of the primitive oral and nasal cavities.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00299258

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4

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The uptake of 5-bromodeoxyuridine by the chicken embryo and its effects upon growth (1981)

Bannigan, John ; Langman, Jan ; Breda, Alex

Springer

Anatomy and embryology 162 (1981), S. 425-434

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ISSN: 1432-0568

Keywords: BUdR ; Chicken embryo ; Growth ; DNA

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary When embryonic cells in vitro are exposed to bromodeoxyuridine (BUdR) the duration of exposure can be made to last for several cell generation times. Such exposure is known to prevent embryonic cells undergoing terminal differentiation while leaving cell division and basic cell function unaffected. When BUdR is injected into pregnant mammals, it remains available for incorporation in the DNA for only a fraction of one S phase and causes foetal anomalies that are apparently the result of cell death and a transient slowing of the cell generation time but not of failure of cell lines to differentiate. The objectives of our experiments were to ascertain the availability time of BUdR in the chicken embryo in ovo, to assess its teratogenicity and to examine its effects on the growth of the embryo. When 3H-BUdR (0.02 mg) was injected into the albumen space on day 3 of incubation, subsequent scintillation spectrometry and autoradiography showed that the drug was incorporated into the DNA of the embryo for more than 8 h or more than one cell generation time at this stage of development. On the other hand, a trace amount of tritiated thymidine (3H-TdR) was available for only one hour, the difference being probably due to an expansion of the nucleotide precursor pool in the case of BUdR. The injection of 0.02 mg BUdR on day 3 caused growth retardation as manifested by differences in weight and in DNA content between BUdR and saline treated embryos. The difference in DNA content was evident 24 h after treatment and was probably due in part of the cell necrosis in the developing CNS that began 10 h after injection. Differences in weight did not become apparent until 4 days after treatment and were thus thought to be due to factors other than cell necrosis. On day 11 of incubation, the mortality of BUdR treated embryos became significantly greater than that of controls and many survivors after this time had ventral body wall defects. When treatment was delayed until days 4 or 6, the subsequent development of BUdR and saline treated embryos was indistinguishable. The sensitivity of day 3 was thought to be due to the fact that embryo DNA content quadrupled between days 3 and 4 whereas it only doubled per 24 h period thereafter.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00301868

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5

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Distribution of surface coat material on nasal folds of mouse embryos as demonstrated by concanavalin A bindingSupported by NIH Grant 5732 DE07037-02 for craniofacial developmental (1979)

Burk, Dorothy ; Sadler, T. W. ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 193 (1979), S. 185-196

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ISSN: 0003-276X

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: 3H-concanavalin A and the concanavalin A-horseradish peroxidase staining technique were used to study the distribution of surface coat material on the epithelium of the nasal folds and nasal groove of mouse embryos. In stages shortly before and during epithelial fusion concanavalan A stained or labeled material was present at apical surfaces of epithelial cells of the nasal groove and nasal folds. Silver grains, representing bound 3H-concanavalin A, were counted in defined areas of the nasal groove and presumptive fusion area in both anterior and posterior regions of the nasal folds. For both stages examined there was a significant increase in the amount of 3H-concanavalin A bound by presumptive fusion areas in posterior regions of the nasal folds as compared with anterior regions; i.e., the amount of surface coat was greater in the region just prior to the point of contact between the nasal folds. This finding is consistent with results from investigations of palatal shelf and neural fold fusion which suggest that increased synthesis of surface coat material is associated with adhesion and fusion of epithelial folds and shelves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ar.1091930202

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Closure of the neural tube in the cephalic region of the mouse embryo (1977)

Geelen, Jan A. G. ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 189 (1977), S. 625-639

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ISSN: 0003-276X

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: In mouse embryos varying in age from 9 to 20 somites the first closure of the neural groove was found to occur in the cervical region. The fusion process gradually proceedéd in rhombencephalic direction until it reached a level just caudal to the otic pits. Shortly afterwards the prosencephalic walls fused together independent of the rhombencephalic closure. This prosencephalic fusion process proceeded caudally in the direction of the mesencephalon until it reached the rostral portion of the rhombencephalon. In this region the two independent fusion processes met each other. In addition the prosencephalic fusion proceeded in rostral direction toward the anterior neuropore, which was the last part of the brain vesicles to close. Hence, the closure of the brain vesicles is not a zipper-like process proceeding from the rhombencephalon to the anterior neuropore, but occurs at several places at the same time and proceeds in a rostral as well as in a caudal direction.At the cellular level considerable differences in the fusion process were found to exist between the various brain vesicles. In the rhombencephalon the first bridge between the two opposing walls was formed by surface ectoderm and neural crest cells. In the mesencephalon single squamous ectoderm and a few neuroepithelial cells established the first contact, whereas in the prosencephalon the apical ends of several neuroepithelial cells fused together to overbridge the gap between the opposing walls. The surface ectoderm cells subsequently covered the neuroepithelial bridge. In the region of the anterior neuropore the fusion was similar to that between the prosencephalic walls, the only difference being that in the anterior neuropore area many more darkly stained particles indicating cell degeneration, were present than in the prosencephalon. It is thus concluded that considerable differences exist in the fusion of the neural walls between the various brain vesicles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ar.1091890407

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Effect of fluorodeoxyuridine, colcemid, and bromodeoxyuridine on developing neocortex of the mouse (1973)

Webster, William ; Shimada, Morimi ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 137 (1973), S. 67-85

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ISSN: 0002-9106

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The purpose of this study was to obtain information about factors controlling the interkinetic movement of neuroepithelial cells and the cortical migration of neuroblasts in the developing mouse neocortex. In the first experiment 15-day pregnant mice were injected with a single dose of fluorodeoxyuridine, a compound which inhibits the enzyme thymidylate synthetase thus blocking DNA-replication. The animals were sacrificed at various hours and days following treatment. Two hours after treatment the mitotic index of the neuroepithelial cells was severely reduced and cells with abnormal nuclei appeared in the DNA-synthesizing zone of the neuroepithelial layer. By five hours more abnormal cells appeared and many showed degenerating nuclei. By 12 hours cells with abnormal nuclei were seen in the outer half of the neuroepithelial layer and some in the migratory zone. Since they were not seen at the lumen, these observations indicate that fluorodeoxyuridine-affected nuclei do not move to the lumen and do not divide. By 24 hours abnormal nuclei were seen in the migratory zone and cortical plate suggesting cortical migration without preceding cell division. In the second experiment 15-day pregnant mice were treated with col-cemid, a compound which arrests dividing cells in metaphase. Two and four hours after injection a large number of neuroepithelial cells in metaphase accumulated at the lumen. By seven and 12 hours the number of arrested metaphases decreased rapidly, but at the same time cells with dense, darkly stained nuclei appeared in the adjacent neuroepithelium. By 24 hours these abnormal nuclei were present in the migratory zone and cortical plate, suggesting that they were migrating towards the surface of the cortex despite the failure to complete mitosis. In the third experiment 15-day pregnant mice were injected with bromodeoxyuridine, a compound incorporated into DNA and thought to interfere with differentiation. During the first 12 hours after treatment a striking increase in the number of normal mitotic figures was seen at the lumen. By 16 hours, however, abnormal mitotic figures started to appear. Since the generation time of neuroepithelial cells at this stage of development is about 13 hours, the abnormal mitotic figures must represent cells which have gone through two DNA-synthetic periods since the beginning of the treatment. The abnormal mitotic figures give rise to cells with dense pycnotic nuclei which by 24 hours are found throughout the width of the developing neocortex. Thus in each experiment cells with abnormal, presumably non-functional, nuclei were produced. Despite the failure to divide or to carry out a normal division, the nuclei migrate from the neuroepithelial layer towards the cortical plate in a fashion similar to that of normal postmitotic neuroblasts.

Additional Material: 1 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001370106

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Fusion of nasal swellings in the mouse embryo: Regression of the nasal fin (1977)

Gaare, John D. ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 150 (1977), S. 477-499

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ISSN: 0002-9106

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The nasal fin is an epithelial seam that develops by fusion between the epithelial linings of the medial and lateral nasal swellings. Shortly after its formation the nasal fin regresses and is replaced by mesenchyme, with exception of its most posterior portion which remains as the bucconasal membrane. Since the regression of the nasal fin plays an important role in the formation of the upper lip and primary palate, the breakdown of the fin was examined with the electron microscope in 12-day-old mouse embryos.Shortly before the epithelial linings of the opposing nasal swellings make contact, cell degeneration characterized by condensation and fragmentation occurs in the epithelial linings of the prospective fusion areas. Apparently direct contact between the nasal swellings is not necessary to cause cell death.After fusion has established the nasal fin, epithelial cells continue to degenerate by condensation and fragmentation. Cell degeneration, however, can not account for complete regression of the fin, since many morphologically healthy epithelial cells are always present. Since no indication was found that the surviving epithelial cells transform into mesenchymal cells, it is suggested that they are incorporated into the adjacent epithelial linings of the expanding primitive nasal and oral cavities.The extracellular dense bodies that result from degenerating cells are engulfed by neighboring epithelial cells, in which they form phagocytic vacuoles. Some of these epithelial cells containing numerous cytoplasmic vacuoles appear to transform into large round macrophages.When the acid phosphatase procedure was applied, many heterophagic vacuoles contained a black precipitate, indicating that, after being phagocytosed, the dense fragments are digested by lysosomal enzymes. A similar black precipitate appeared over autophagic vacuoles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001500308

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The influence of a prenatal trauma on formation of Purkinje cells (1973)

Andreoli, John ; Rodier, Patricia ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 137 (1973), S. 87-101

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ISSN: 0002-9106

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The first goal of this investigation was to determine the time of origin of Purkinje cells and their final location in the various lobes of the cerebellum. DUB/ICR mice were therefore injected with several doses of 3H-thymidine on day 11, 12, 13, 14, or 15 of gestation. Cells formed on days 11 and 12 appeared in all lobes of the postnatal vermis but those formed on day 13 became located mainly in the anterior lobe.The second goal was to examine the effect of 5-fluorodeoxyuridine, a DNA synthesis inhibitor, on Purkinje cell formation and on repair of the rhombic lip after a prenatal trauma. Five hours after treatment with fluorodeoxyuridine cells with darkly stained nuclear clumps appeared and mitotic activity ceased. Twelve hours after treatment mitotic activity remained low and more affected cells appeared in the neuroepithelium of the rhombic lip. By 24 hours abnormal cells had disappeared, mitotic activity was almost normal and the neuroepithelium had regained its regular continuity. Treatment on day 12 led to a significant deficit of Purkinje cells in all lobes of the vermis, while treatment on day 13 caused a deficit in the anterior lobe only. Despite the postnatal Purkinje cell deficit, compensatory cell proliferation had occurred in the rhombic lip. The mitotic index in the treated embryos reached the value of the controls after 24 hours and was extremely high after 48 hours. Part of this proliferative activity leads to Purkinje cell production, for it was possible to label substantial numbers of Purkinje cells on day 14 of gestation in animals treated with fluorodeoxyuridine on day 12, while control animals have virtually completed Purkinje cell formation by day 14. Although Purkinje cell deficits were accompanied by a reduction in the size of the cerebellum, the cytoarchitecture of the cerebellum appeared normal.

Additional Material: 5 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001370107

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The effect of cytochalasin B on the neuroepithelial cells of the mouse embryo (1978)

Webster, William ; Langman, Jan

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 152 (1978), S. 209-221

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ISSN: 0002-9106

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Eleven-day mouse embryos were cultured in a medium containing cytochalasin B (10 μg/ml) to examine the effect of the drug on the developing CNS. The embryos were exposed to the drug for two hours. After culturing, the embryos were prepared for light and electron microscopy and the neuroepithelium of the cerebral vesicles was examined. The following abnormalities were noted in the cytochalasin B-treated embryos: (1) mitotic figures were situated in the middle of the neuroepithelial layer instead of on the lumen, indicating that premitotic nuclear migration had been prevented; (2) binucleate cells were found in the neuroepithelial layer, indicating that cytochalasin B does not interfere with mitosis but prevents cytokinesis; (3) the microfilaments usually seen in the apex of the neuroepithelial cells were disrupted and formed an amorphous mass of filamentous material; (4) some neuroepithelial cells were free in the lumen, whereas others protruded into the ventricle but appeared to remain attached to the internal limiting border by their junctional complexes; and (5) in some regions the neuroepithelial cells had broken away from their end-feet at the basal lamina. These morphological changes were associated with a change in the internal limiting boundary from concave to convex and vacuolation of the external processes of the cells. The relationship between cytochalasin B, microfilaments and these morphological changes is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001520204

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