The overall goals of this program project are: (1) to understand the basic mechanisms in aging by the development of an integrated system for investigation ranging from the animal to the tissue to the cell to the genes and the gene products, based on the Syrian hamster. (2) To understand the basic mechanism relating aging, differentiation and carcinogenesis. There are three projects in this application: Project I, Part A, Cellular and developmental biology of mesenchymal cells of hamster and human; Part B, Nucleic acid molecular biology; Part C, Nucleic acid molecular cytology. Project II, Study on the hematopoietic system. Project III, Activation and modification of intracisternal A particle genes during senescence of mouse and Syrian hamster. The first stage is to develop the Syrian hamster as a comprehensive aging model with emphasis on mesenchymal cells in skin tissue and on hematopoietic tissue. Research will be focused on """"""""stem"""""""" cells or progenitor cells and their differentiation from developing embryos to aged animals. The density and the function of stem cells will be used as quantitative markers for aging, and the investigation of the differentiation process will provide insight into the basic mechanism of aging. The second stage of the study is to develop the processes and to identify the factors which can manipulate differentiation, aging and neoplasia (as an aberrant differentiation process) with emphasis on the differentiation of embryonic/fetal mesenchymal cells and hematopoietic cells. The third stage of the study is the development of the molecular biological description of differentiation in terms of changes in DNA (genome) and mRNA (gene expression) allowing the testing of specific hypotheses with the aid of two new approaches, nucleic acid in situ hybridization and two-dimensional gels for separation of DNA restriction fragments. The main thrust is to detect changes in the mRNA population as related to DNA changes in sequences of intracisternal A particles, retrovirus oncogenic C particles, and common sequences between the human and hamster genomes (highly conserved in evolution). The results will indicate (1) how differentiation/aging/neoplasia can be described in terms of mRNA population and (2) how differentiation/aging/neoplasia is related to or caused by programmed or perturbed DNA changes.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Program Projects (P01)
Project #
5P01AG003633-04
Application #
3090685
Study Section
Aging Review Committee (AGE)
Project Start
1983-08-01
Project End
1988-07-31
Budget Start
1986-08-01
Budget End
1988-07-31
Support Year
4
Fiscal Year
1986
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Type
Schools of Public Health
DUNS #
045911138
City
Baltimore
State
MD
Country
United States
Zip Code
21218
Deamond, S F; Bruce, S A (1991) Age-related differences in promoter-induced extension of in vitro proliferative life span of Syrian hamster fibroblasts. Mech Ageing Dev 60:143-52
Bruce, S A; Deamond, S F (1991) Longitudinal study of in vivo wound repair and in vitro cellular senescence of dermal fibroblasts. Exp Gerontol 26:17-27
Bruce, S A (1991) Ultrastructure of dermal fibroblasts during development and aging: relationship to in vitro senescence of dermal fibroblasts. Exp Gerontol 26:3-16
Creasey, D C; Ts'o, P O (1988) DNA replication in Syrian hamster cells transiently exposed to hydroxyurea. Cancer Res 48:6298-302
Morgan, R A; Christy, R J; Huang, R C (1988) Murine A type retroviruses promote high levels of gene expression in embryonal carcinoma cells. Development 102:23-30
Christy, R J; Huang, R C (1988) Functional analysis of the long terminal repeats of intracisternal A-particle genes: sequences within the U3 region determine both the efficiency and direction of promoter activity. Mol Cell Biol 8:1093-102
Morgan, R A; Huang, R C (1987) Post-transcriptional regulation and DNA undermethylation of intracisternal A particle genes in embryonal carcinoma cell lines. Dev Genet 8:123-33
Rowley, S D; Sharkis, S J; Hattenburg, C et al. (1987) Culture from human bone marrow of blast progenitor cells with an extensive proliferative capacity. Blood 69:804-8
Bruce, S A; Deamond, S F; Ts'o, P O (1986) In vitro senescence of Syrian hamster mesenchymal cells of fetal to aged adult origin. Inverse relationship between in vivo donor age and in vitro proliferative capacity. Mech Ageing Dev 34:151-73
Yang, A D; Gourlie, B B; Christy, R J et al. (1986) Complete nucleotide sequence of an EcoRI-1.35-kb repeated element of mouse: homology with the cellular flanking region between two intracisternal A-particle genes. Gene 41:33-8

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