This project is to study gene mutations and small intrachromosomal changes directly in exposed mammals. We have taken two approaches. 1). Site specific alterations in proteins detected in single cells: Antigenic differences between rat and mouse LDH-C were used to detect mutations in mouse sperm. Initial work indicated that this system had potential for the study of mutagenesis in mammals; later research showed that the apparent mutation frequency varied too much to give reproducibly useful data. The conclusion was reached that although antibodies had the needed sensitivity, interspecies differences may not be appropriate as markers for induced mutations; also, a model mutant cell must exist for a proper test of antibodies. Therefore, induced mouse mutants with changes in electrophoretic mobility of enzymes were selected for these studies. Such mutants exist in both MOD-1 and LDH-A and both enzymes are present in sperm. The LDH-A mutants are presently being investigated. 2). Site specific changes detected at the DNA level: A major problem for detection of genetic damage directly in mammalian DNA is that most genes occur in one, or few copies; there are however, two possible approaches. The first is the use of mitochondrial (mt) DNA. Cloned mouse mtDNA has been used for restriction analysis of sperm mtDNA isolated from a single mouse; after additional technical improvements, the mtDNA from treated mice will be examined for mutations. The second is the use of viral DNA transformed into mammalian DNA. Double stranded DNA from PhiX174 am3, cs70 was transformed into mouse L-cells. The DNA was incorporated into several places in tandem arrangements. Using restriction enzymes and ligase it was possible to transfect spheroplasts with PhiXDNA from the transformed mammalian cells. Attempt are being made to create to mouse strain with PhiXDNA in the genome for the study of mutation induction in any part of the animal tissue.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Intramural Research (Z01)
Project #
1Z01ES065033-02
Application #
4693271
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
1985
Total Cost
Indirect Cost
Name
U.S. National Inst of Environ Hlth Scis
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Samet, Jonathan M; DeMarini, David M; Malling, Heinrich V (2004) Biomedicine. Do airborne particles induce heritable mutations? Science 304:971-2
Weaver, Robert P; Malling, Heinrich V (2003) The in vivo but not the in vitro am3 revertant frequencies increase linearly with increased ethylnitrosourea doses in spleen of mice transgenic for phiX174 am3, cs70 using the single burst assay. Mutat Res 534:1-13
Valentine, Carrie R; Montgomery, Beverly A; Miller, Scott G et al. (2002) Characterization of mutant spectra generated by a forward mutational assay for gene A of Phi X174 from ENU-treated transgenic mouse embryonic cell line PX-2. Environ Mol Mutagen 39:55-68
Cosentino, Lidia; Malling, Heinrich V; Heddle, John A (2002) Response of the phiX174 am3, cs70 transgene to acute and chronic ENU exposure: implications for protocol design. Mutat Res 518:113-21
Malling, H V; Delongchamp, R R (2001) Direct separation of in vivo and in vitro am3 revertants in transgenic mice carrying the phiX174 am3, cs70 vector. Environ Mol Mutagen 37:345-55
Delongchamp, R R; Valentine, C R; Malling, H V (2001) Estimation of the average burst size of Phix174 am3, cs70 for use in mutation assays with transgenic mice. Environ Mol Mutagen 37:356-60
Delongchamp, R R; Malling, H V; Chen, J B et al. (1999) An estimator of the mutant frequency in assays using transgenic animals. Mutat Res 440:101-8
Malling, H V (1999) Frederick J. de Serres: the years at the Research Triangle Park (1972-1995). Mutat Res 437:69-75
Malling, H V; Newbold, R R; Lewis, S et al. (1999) Mutagenesis of a single AT basepair in mice transgenic for PhiX174 am3, cs70. II. Brain. Mutat Res 444:85-95