PDGF B-chain in neurons of the central nervous system, posterior pituitary, and in a transgenic model

Masakiyo Sasahara; Jochen W.U. Fries; Elaine W. Raines; Allen M. Gown; Lesnick E. Westrum; Matthew P. Frosch; David T. Bonthron; Russell Ross; Tucker Collins

doi:10.1016/0092-8674(91)90223-L

PDGF B-chain in neurons of the central nervous system, posterior pituitary, and in a transgenic model

Masakiyo Sasahara^*, Jochen W.U. Fries, Elaine W. Raines, Allen M. Gown, Lesnick E. Westrum, Matthew P. Frosch, David T. Bonthron, Russell Ross, Tucker Collins

^*Corresponding author for this work

Faculty of Medicine

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

372 Scopus citations

Abstract

Platelet-derived growth factors (PDGFs) are growth-regulatory molecules that stimulate chemotaxis, proliferation, and increased metabolism of primarily connective tissue cells. In a survey of normal tissues, we found specific immunostaining for PDGF B-chain in neurons, principal dendrites, some axons, and probable terminals throughout the brain, in the dorsal horn of the spinal cord, and in the posterior pituitary of a nonhuman primate (Macaca nemestrina). PDGF activity was extracted from brain cortex and posterior pituitary, and ubiquitous expression of transcripts for the two chains of PDGF and both PDGF receptors was detected throughout the brain and posterior pituitary. A transgenic model was also evaluated in which the chioramphenicol acetyltransferase gene was placed under transcriptional control of the PDGF B-chain promoter. The transgene was preferentially expressed within neural cell bodies in the cortex, hippocampus, and cerebellum. PDGF may act as a neuronal regulatory agent. Neuronal release of PDGF could contribute to nerve regeneration and to glial proliferation that leads to gliosis and scarring.

Original language	English
Pages (from-to)	217-227
Number of pages	11
Journal	Cell
Volume	64
Issue number	1
DOIs	https://doi.org/10.1016/0092-8674(91)90223-L
State	Published - 1991/01/11

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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@article{f651bc6369fe4c28a9af9504864a5f75,

title = "PDGF B-chain in neurons of the central nervous system, posterior pituitary, and in a transgenic model",

abstract = "Platelet-derived growth factors (PDGFs) are growth-regulatory molecules that stimulate chemotaxis, proliferation, and increased metabolism of primarily connective tissue cells. In a survey of normal tissues, we found specific immunostaining for PDGF B-chain in neurons, principal dendrites, some axons, and probable terminals throughout the brain, in the dorsal horn of the spinal cord, and in the posterior pituitary of a nonhuman primate (Macaca nemestrina). PDGF activity was extracted from brain cortex and posterior pituitary, and ubiquitous expression of transcripts for the two chains of PDGF and both PDGF receptors was detected throughout the brain and posterior pituitary. A transgenic model was also evaluated in which the chioramphenicol acetyltransferase gene was placed under transcriptional control of the PDGF B-chain promoter. The transgene was preferentially expressed within neural cell bodies in the cortex, hippocampus, and cerebellum. PDGF may act as a neuronal regulatory agent. Neuronal release of PDGF could contribute to nerve regeneration and to glial proliferation that leads to gliosis and scarring.",

author = "Masakiyo Sasahara and Fries, {Jochen W.U.} and Raines, {Elaine W.} and Gown, {Allen M.} and Westrum, {Lesnick E.} and Frosch, {Matthew P.} and Bonthron, {David T.} and Russell Ross and Tucker Collins",

note = "Funding Information: probes. We also thank Susan Clapoff, Dr. Janet Rossant, and Microinjection Services for construction of the transgenic mice, and Dr. W. V Shaw (University of Leicester) for providing the anti-CAT antibody. We would like to thank Drs. R. Redline, D. Mendrick, and B Tyko for helpful advice, as well as A. Williams, and Drs. S. H. Orkin, M. A. Gimbrone, and Ft. C. Cotran for enthusiastic support. This research was supported by NIH grants HL-18645 (to R. R. and E. W. R.), CA-36250 and HL-29873 (to A. M. G.), NS-09678 (to L. E. W.), PO1 HL 36028 and ROl HL 35716 (to T. C.), and RR-00166 to the Regional Primate Research Center of the University of Washington. T. C. is a fellow of the Pew Scholars Program.",

year = "1991",

month = jan,

day = "11",

doi = "10.1016/0092-8674(91)90223-L",

language = "英語",

volume = "64",

pages = "217--227",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier B.V.",

number = "1",

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TY - JOUR

T1 - PDGF B-chain in neurons of the central nervous system, posterior pituitary, and in a transgenic model

AU - Sasahara, Masakiyo

AU - Fries, Jochen W.U.

AU - Raines, Elaine W.

AU - Gown, Allen M.

AU - Westrum, Lesnick E.

AU - Frosch, Matthew P.

AU - Bonthron, David T.

AU - Ross, Russell

AU - Collins, Tucker

N1 - Funding Information: probes. We also thank Susan Clapoff, Dr. Janet Rossant, and Microinjection Services for construction of the transgenic mice, and Dr. W. V Shaw (University of Leicester) for providing the anti-CAT antibody. We would like to thank Drs. R. Redline, D. Mendrick, and B Tyko for helpful advice, as well as A. Williams, and Drs. S. H. Orkin, M. A. Gimbrone, and Ft. C. Cotran for enthusiastic support. This research was supported by NIH grants HL-18645 (to R. R. and E. W. R.), CA-36250 and HL-29873 (to A. M. G.), NS-09678 (to L. E. W.), PO1 HL 36028 and ROl HL 35716 (to T. C.), and RR-00166 to the Regional Primate Research Center of the University of Washington. T. C. is a fellow of the Pew Scholars Program.

PY - 1991/1/11

Y1 - 1991/1/11

N2 - Platelet-derived growth factors (PDGFs) are growth-regulatory molecules that stimulate chemotaxis, proliferation, and increased metabolism of primarily connective tissue cells. In a survey of normal tissues, we found specific immunostaining for PDGF B-chain in neurons, principal dendrites, some axons, and probable terminals throughout the brain, in the dorsal horn of the spinal cord, and in the posterior pituitary of a nonhuman primate (Macaca nemestrina). PDGF activity was extracted from brain cortex and posterior pituitary, and ubiquitous expression of transcripts for the two chains of PDGF and both PDGF receptors was detected throughout the brain and posterior pituitary. A transgenic model was also evaluated in which the chioramphenicol acetyltransferase gene was placed under transcriptional control of the PDGF B-chain promoter. The transgene was preferentially expressed within neural cell bodies in the cortex, hippocampus, and cerebellum. PDGF may act as a neuronal regulatory agent. Neuronal release of PDGF could contribute to nerve regeneration and to glial proliferation that leads to gliosis and scarring.

AB - Platelet-derived growth factors (PDGFs) are growth-regulatory molecules that stimulate chemotaxis, proliferation, and increased metabolism of primarily connective tissue cells. In a survey of normal tissues, we found specific immunostaining for PDGF B-chain in neurons, principal dendrites, some axons, and probable terminals throughout the brain, in the dorsal horn of the spinal cord, and in the posterior pituitary of a nonhuman primate (Macaca nemestrina). PDGF activity was extracted from brain cortex and posterior pituitary, and ubiquitous expression of transcripts for the two chains of PDGF and both PDGF receptors was detected throughout the brain and posterior pituitary. A transgenic model was also evaluated in which the chioramphenicol acetyltransferase gene was placed under transcriptional control of the PDGF B-chain promoter. The transgene was preferentially expressed within neural cell bodies in the cortex, hippocampus, and cerebellum. PDGF may act as a neuronal regulatory agent. Neuronal release of PDGF could contribute to nerve regeneration and to glial proliferation that leads to gliosis and scarring.

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U2 - 10.1016/0092-8674(91)90223-L

DO - 10.1016/0092-8674(91)90223-L

M3 - 学術論文

C2 - 1986868

AN - SCOPUS:0026099061

SN - 0092-8674

VL - 64

SP - 217

EP - 227

JO - Cell

JF - Cell

IS - 1

ER -

PDGF B-chain in neurons of the central nervous system, posterior pituitary, and in a transgenic model

Abstract

ASJC Scopus subject areas

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