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The role of nerve cell density in the regulation of bud production in hydra (1978)

Browne, C. L. ; Davis, Lowell E.

Springer

Development genes and evolution 184 (1978), S. 95-108

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ISSN: 1432-041X

Keywords: Hydra ; Nerve cells ; Cell differentiation ; Budding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The role of nerve cell density in the regulation of bud production in hydra was examined. Animals with different rates of bud production were produced by altering the temperature, population density and illumination of their cultures. When the distribution of cell types was examined in animals with different rates of bud production, the density of nerve cells in those animals was found to be correlated with their rate of bud production. Transfer of animals from one environment to another resulted in immediate changes in the rate of differentiation of large interstitial cells into nerve cells. This suggests that the density of nerve cells may play a role in regulating the rate of bud production in hydra.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00848219

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Histological and ultrastructural studies of the basal disk of Hydra (1973)

Davis, Lowell E. ; Bursztajn, Sherry

Springer

Cell & tissue research 139 (1973), S. 29-45

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ISSN: 1432-0878

Keywords: Nerve cells ; Hydra ; Basal disk ; Epithelial cells ; Light and electron microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary In addition to glandulomuscular cells, three other cell types are found in the basal disk of Hydra. These are interstitial cells, cnidoblasts and nerve cells. Although only a few of the two former cell types are recognized in this region, the observations from this study refute previous statements to the contrary. Nerve cells are concentrated in the basal disk where they form a type of “network” system, due to the presence of bipolar, tripolar and multipolar cells. In some specimens, they assume a circular arrangement around the base of the polyp. Using morphological criteria for identifying the three types of epidermal nerve cells (neurosensory, neurosecretory and ganglionic) in other body regions, only neurosensory and neurosecretory cells are observed in the basal disk. These are indistinguishable ultrastructurally from their respective counterparts in other regions. It is possible that ganglionic cells are also present in the basal disk, but there may be few such cells. It is suggested that the three cell types originate from the budding region and these precursor cells are then forced proximally. Interstitial cells, escaping their differentiative function, do not develop apparently into other cell types of the basal disk. Cnidoblasts contain normal nematocysts but their functional ability is uncertain. Neurosensory and neurosecretory cells arise directly and independently from interstitial cells in the budding region, as evidenced by the appearance of immature nerve cells in the peduncle and their absence in the basal disk. Although viable cells may be discarded from the basal disk, it is believed that most cells die in situ and are then eliminated. The possible role of nerve cells is discussed briefly.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00307459

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The role of the nervous system in regeneration, growth and cell differentiation in Hydra (1974)

Bursztajn, Sherry ; Davis, Lowell E.

Springer

Cell & tissue research 150 (1974), S. 213-229

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ISSN: 1432-0878

Keywords: Nerve cells ; Regeneration ; Neurosecretion ; Hydra viridis, littoralis ; Light microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Using whole mount preparations, nerve cells at the cut surface (head region) and also the peduncular-basal disk region were studied during various stages of regeneration (zero hour — 96 h) in Hydra. Leucomethylene blue staining technique allows excellent stainability of nerve cells and thus a statistical count of them at the specified stages of regeneration was obtained. Within 1 h after transection a significant increase (P 〈 0.001) in release of neurosecretory droplets occurs. Between 4 and 15 h of regeneration the number of perikarya remains relatively constant, but the number of processes increases by 200%. This indicates that neurons in Hydra have the capacity to regenerate their processes. Their growth in length is dramatically illustrated at 18 hrs. of regeneration. This degree of anastomosing arrangement is not observed in any other stage of regeneration. After this time the majority of processes break down releasing the neurosecretory materials. A study of the number of perikarya, the number of neurites and the number of neurosecretory droplets in regenerating animals reveals a continuous increase in the number of nerve cells and neurosecretory droplets released for up to 24 h. With the accumulation of nerve cells at the cut surface (24 h of regeneration) there is a simultaneous appearance of tentacle outpushings. The tentacles increase in number and length during the subsequent periods of regeneration. As the regenerative process approaches completion (72–96 h) the number of neurosecretory droplets released decreases, approaching the pre-transection levels as seen in normal animals. It is suggested that the neurosecretory material may act as a “trophic” agent which stimulates differentiation of interstitial cells into nerve cells and thus influences the regenerative process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222171

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The role of the nervous system in regeneration, growth and cell differentiation in Hydra (1974)

Davis, Lowell E. ; Bursztajn, Sherry

Springer

Cell & tissue research 150 (1974), S. 231-247

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ISSN: 1432-0878

Keywords: Regeneration ; Nerve cells ; Neurosecretion ; Hydra ; Electron microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Major ultrastructural changes in neurons were studied during sequential periods of hypostomal regeneration in Hydra. Some neurons remain unaffected except that at certain periods following amputation, they become more active in neurosecretory production. Other neurons in various stages of differentiation were also observed. Most emphasis was placed on degenerating neurons showing a loss of organelles and destruction of the perikarya. Certain large, membrane-bounded structures (up to 1.7 μ in diameter) suggested tentatively to be of a lysosomal-like nature, may be partly responsible for the degenerative process. The neurites of these cells first assume a beaded appearance and/or contain bulbous endings. The eventual isolated fragments of neurites contain typical membrane-bounded neurosecretory droplets (850/1700 Å in diameter) which disintegrate forming particulate materials (350 Å in diameter). Following complete disruption of the neurites, some of the granules accumulate in the extracellular spaces before they are disintegrated. From the data presented in this and the preceding paper, it is suggested that these particles, derived from neurosecretory droplets, may be responsible for the stimulation of: 1) interstitial cell differentiation into neurons, 2) the increased activity in neurosecretory production in normal cells, 3) the conspicuous increase in neurite length and consequently the exaggerated degree of anastomosis, and 4) the possible capacity of neurons to regenerate neurites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222172

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Cellular mechanisms of stimulation of bud production in Hydra by low levels of inorganic lead compounds (1977)

Browne, C. L. ; Davis, L. E.

Springer

Cell & tissue research 177 (1977), S. 555-570

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ISSN: 1432-0878

Keywords: Hydra ; Budding ; Differentiation ; Nerve cells ; Lead

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Treatment of Hydra with subtoxic levels of inorganic lead compounds (lead nitrate and lead chloride) for periods ranging from 5 min to one hour causes a temporary increase in bud production as compared to untreated control animals. This effect can be inhibited by the addition of large amounts of calcium chloride to the culture medium. The increased rate of budding is preceded by a dramatic increase in the number of nerve cells per animal, which is first observed within six hours after lead treatment. This appears to be the result of an increased rate of mitosis in the undifferentiated interstitial cells and their subsequent differentiation into nerve cells. The total number of cells per animal also increases after exposure to lead compounds, suggesting that lead may act as a general mitotic stimulator of all dividing cell types in Hydra.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220614

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