Depolarization and insulin like growth factor-l (IGF-l) differentially regulate the mitotic cycle in cultured rat sympathetic neuroblasts

E. DiCicco-Bloom; I. B. Black

doi:10.1016/0006-8993(89)90080-2

Depolarization and insulin like growth factor-l (IGF-l) differentially regulate the mitotic cycle in cultured rat sympathetic neuroblasts

E. DiCicco-Bloom
, I. B. Black

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

Although neuroblast generation is highly reproducible temporospatially, the underlying regulation is undefined. Employing a fully defined sympathetic neuroblast culture system, we previously found that insulin growth factors regulated the mitotic cycle. We now report that depolarizing stimuli, including elevated K⁺ and veratridine, also increased the proportion of mitotic neuroblasts in vitro. Moreover, Na⁺ channel blockade prevented effects of depolarization, but not that of insulin-like growth factor I, suggesting that these influences stimulate mitosis by different membrane transduction mechanisms.

Original language	English (US)
Pages (from-to)	403-406
Number of pages	4
Journal	Brain Research
Volume	491
Issue number	2
DOIs	https://doi.org/10.1016/0006-8993(89)90080-2
State	Published - Jul 10 1989
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Neuroscience
Molecular Biology
Clinical Neurology
Developmental Biology

Keywords

Cell division
Deoxyribonucleic acid synthesis
Neurogenesis
Tyrosine hydroxylase

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10.1016/0006-8993(89)90080-2

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title = "Depolarization and insulin like growth factor-l (IGF-l) differentially regulate the mitotic cycle in cultured rat sympathetic neuroblasts",

abstract = "Although neuroblast generation is highly reproducible temporospatially, the underlying regulation is undefined. Employing a fully defined sympathetic neuroblast culture system, we previously found that insulin growth factors regulated the mitotic cycle. We now report that depolarizing stimuli, including elevated K+ and veratridine, also increased the proportion of mitotic neuroblasts in vitro. Moreover, Na+ channel blockade prevented effects of depolarization, but not that of insulin-like growth factor I, suggesting that these influences stimulate mitosis by different membrane transduction mechanisms.",

keywords = "Cell division, Deoxyribonucleic acid synthesis, Neurogenesis, Tyrosine hydroxylase",

author = "E. DiCicco-Bloom and Black, \{I. B.\}",

note = "Funding Information: We thank Bettye Mayer for excellentt echnical assistanceT. his work was supported by Grants HD23315 and NS10259.E .D.-B. is the recipiento f a Teacher-ScientisAtw ard from the Andrew W. Mellon Foundationa nd Clinical InvestigatoAr ward HD00676. I.B.B. is the recipient of a McKnight FoundationR esearchP rojectAward.",

year = "1989",

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doi = "10.1016/0006-8993(89)90080-2",

language = "English (US)",

volume = "491",

pages = "403--406",

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T1 - Depolarization and insulin like growth factor-l (IGF-l) differentially regulate the mitotic cycle in cultured rat sympathetic neuroblasts

AU - DiCicco-Bloom, E.

AU - Black, I. B.

N1 - Funding Information: We thank Bettye Mayer for excellentt echnical assistanceT. his work was supported by Grants HD23315 and NS10259.E .D.-B. is the recipiento f a Teacher-ScientisAtw ard from the Andrew W. Mellon Foundationa nd Clinical InvestigatoAr ward HD00676. I.B.B. is the recipient of a McKnight FoundationR esearchP rojectAward.

PY - 1989/7/10

Y1 - 1989/7/10

N2 - Although neuroblast generation is highly reproducible temporospatially, the underlying regulation is undefined. Employing a fully defined sympathetic neuroblast culture system, we previously found that insulin growth factors regulated the mitotic cycle. We now report that depolarizing stimuli, including elevated K+ and veratridine, also increased the proportion of mitotic neuroblasts in vitro. Moreover, Na+ channel blockade prevented effects of depolarization, but not that of insulin-like growth factor I, suggesting that these influences stimulate mitosis by different membrane transduction mechanisms.

AB - Although neuroblast generation is highly reproducible temporospatially, the underlying regulation is undefined. Employing a fully defined sympathetic neuroblast culture system, we previously found that insulin growth factors regulated the mitotic cycle. We now report that depolarizing stimuli, including elevated K+ and veratridine, also increased the proportion of mitotic neuroblasts in vitro. Moreover, Na+ channel blockade prevented effects of depolarization, but not that of insulin-like growth factor I, suggesting that these influences stimulate mitosis by different membrane transduction mechanisms.

KW - Cell division

KW - Deoxyribonucleic acid synthesis

KW - Neurogenesis

KW - Tyrosine hydroxylase

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DO - 10.1016/0006-8993(89)90080-2

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ER -

Depolarization and insulin like growth factor-l (IGF-l) differentially regulate the mitotic cycle in cultured rat sympathetic neuroblasts

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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