William C. Eastin scite author profile

Recently, the use of selected genetically altered mouse models in the detection of carcinogens after short-term chemical exposures has been evaluated. Studies of several chemicals conducted by the National Toxicology Program in Tg.AC transgenic and heterozygous p53-deficient mice have been completed recently and represent a major contribution to this effort, as well as the largest accumulation to date of toxicologic pathology data in these 2 lines of mice. The purpose of this report is to describe the proliferative target organ effects observed in this set of studies, as well as to present the tumor profile in the control groups of this data set. These findings provide a comprehensive toxicologic assessment of these 2 genetically altered mouse strains, which are of emerging importance in toxicologic pathology.

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The National Toxicology Program Evaluation of Genetically Altered Mice as Predictive Models for Identifying Carcinogens

Eastin

Haseman

Mahler

et al. 1998

Toxicol Pathol

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ABSTRAC~National Institute of Environmental Health Sciences researchers are exploring the utility of genetically altered mice to study mechanisms of carcinogenesis. Two of these mouse models, the Tg.AC (carrier of an activated mouse H-ms oncogene) and the p53+ (heterozygous for the wild-type tumor suppressor gene Trp53), have genetic alterations that appear to hasten their expression of chemically induced tumors. These 2 models have been proposed as a basis for new strategies for identifying chemical carcinogens and for assessing risk. The National Toxicology Program (NTP) is conducting a series of studies with these 2 genetically altered strains to further examine their strengths and weaknesses for identification of documented rodent and human carcinogens. In this first evaluation, candidates for study were drawn from the NTP historical database of 2-yr rodent carcinogenicity studies and the open literature (primarily for drugs). Results with this first set of 11 chemicals tested in genetically altered mice, compared with previous findings in the traditional 2-yr rodent assays and literature on human tumor findings, appear to support the premise advanced by Tennant et a1 that these models have the potential to serve as more rapid and less expensive test systems to identify carcinogens.

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On the Mechanism of Calcium Secretion in the Avian Shell Gland (Uterus)1

Eastin¹,

Spaziani²

1978

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The Tg.AC (v-Ha-ras) Transgenic Mouse: Nature of the Model

et al. 2001

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The Tg.AC (v-Ha-ras) transgenic mouse model provides a reporter phenotype of skin papillomas in response to either genotoxic or nongenotoxic carcinogens. In common with the conventional bioassay, the Tg.AC model responds to known human carcinogens and does not respond to noncarcinogens. It also does not respond to most chemicals that are positive in conventional bioassays principally at sites of high spontaneous tumor incidence. The mechanism of response of the Tg.AC model is related to the structure and genomic position of the transgene and the induction of transgene expression through specific mediated interactions between the chemicals and target cells in the skin.

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On the Control of Calcium Secretion in the Avian Shell Gland (Uterus)

Eastin

Spaziani

1978

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William C. Eastin

Spontaneous and Chemically Induced Proliferative Lesions in Tg.AC Transgenic and p53-Heterozygous Mice

The National Toxicology Program Evaluation of Genetically Altered Mice as Predictive Models for Identifying Carcinogens

On the Mechanism of Calcium Secretion in the Avian Shell Gland (Uterus)1

The Tg.AC (v-Ha-ras) Transgenic Mouse: Nature of the Model

On the Control of Calcium Secretion in the Avian Shell Gland (Uterus)

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