Inbred Strains
of Rats: WF
Inbr.F?+58 (Pit).
Colour: Albino,
Genet. c.
Origin: J Furth 1945 from a commercial Wistar stock in an attempt to develop
a high leukaemia rat strain. Strain carries a distinctive heteropycnotic
Y chromosome which may be used as a cellular marker (Zieverink and Moloney 1965). A substrain carrying the "fuzzy"
mutation, which arose spontaneously in WF has been used in research on
dermal toxicity, and is described in more detail by Marit et al, (1995).
Characteristics
Lifespan and spontaneous disease
Carcinoma of the colon found in 8/21 males and 8/29 females (
Miyamoto and Takizawa 1975). In females tumours include
27% pituitary, 21% mammary, 3% adrenal, 9% leukaemia (generalised), 7%
lymphoma (malignant), 3% lipomas and 4% unclassified (
Kim et al 1960). Mean life span 21 months in females and 23
months in males. Leukaemia 15-22% characterised by an unusual type of
mononuclear cell containing reddish granules. Incidence of spontaneous
pituitary tumours 38% in rats older than 10 months of age, increasing
to a maximum of 69% at 28-32 months of age. Higher incidence in females
(71%) than in males (35%) (Trouillas et al 1982). WF rats develop retinal
dystrophy from about 3-months of age which resembles that found in RCS
rats, but with a later onset. By about 7 months all rats are affected
(
Lin and Essner 1988). Have an hereditary
macrothromobcytopenia, with about 1/3rd. the normal number of platelets,
which are larger than normal. The condition appears to be inherited as
a recessive Mendelian character (Jackson et al 1986).
Drugs and Chemicals
Administration of 3-methylcholanthrene to young increased, but X-rays
decreased leukaemia (Moloney et al 1969).
Highly susceptibly to the induction of mammary cancer following exposure
to dust of 7,12-dimethylbenz(a)-anthracene powder applied directly to
exposed mammary tissue, in contrast with COP (Takahashi
et al, 1992). Resistant (7/7) to the induction of squamous cell carcinomas
of the tongue by 4-nitroquinoline 1-oxide (contrast DA) (Kitano et al, 1992). Sensitive to the convulsive effects
of kainic acid (1/4) (Golden et al, 1995)
Physiology and Biochemistry
Low serum growth hormone (5/5) (Esber et al
1974). Low blood pressure (20/23), reaching 123_1.3 (SEM) mmHg at
10 weeks of age (Tanase et al 1982).
Resistant to adrenal regeneration hypertension (Molteni
et al 1975).
Immunology
Low antibody response to streptococcal group A carbohydrate; not linked
to the MHC (
Stankus and Leslie 1976).
Resistant to the development of experimental autoimmune myasthenia gravis
(1/9) (
Biesecker and Koffler 1988).
Grafts of aorta from DA develop chronic arteriosclerotic changes in the
vascular wall, after a short spontaneously reversible acute rejection
period, which resemble those observed in human allografts during chronic
rejection (
Mennander et al, 1992)
Biesecker
G. and Koffler D. (1988) Resistance to experimental autoimmune myasthenia
gravis in genetically inbred rats. J. Immunol. 140, 3406-3410.
\par
Esber H.
J., Menninger F. F. Jr., and Bogden A. E. (1974) Variation in serum hormone
concentrations in different rat strains. Proc. Soc. Exp. Biol. Med.
146, 1050-1053.
\par
Golden
G. T., Smith G. G., Ferraro T. N., and Reyes P. F. (1995) Rat strain and
age-differences in kainic acid-induced seizures. Epilepsy Res.
20, 151-159.
\par
Kim U., Clifton
K. H., and Furth J. (1960) A highly inbred strain of Wistar rats yielding
spontaneous mammo-somatotropic pituitary and other tumors. J. Natl.
Cancer Inst. 24, 1031-1055.
\par
Kitano
M., Hatano H., and Shisa H. (1992) Strain difference of susceptibility
to 4-nitroquinoline 1-oxide- induced tongue carcinoma in rats. Jpn.
J. Cancer Res. 83, 843-850.
\par
Lin W.-L. and
Essner E. (1988) Retinal dystrophy in Wistar-Furth rats. Exp. Eye
Res. 46, 1-12.
\par
Marit G.
B., Young S. M., and Hadick C. L. (1995) Anatomic and physiological characterization
of the WF/Pmwp-fz (fuzzy) rat. Lab. Animal Sci. 45, 184-190.
\par
Mennander
A., Tiisala S., Ustinov J., Raisanen A., Paavonen T., and Hayry P. (1992)
Chronic rejection of rat aortic allografts .3. Synthesis of major eicosanoids
by vascular wall components and effect of inhibition of the thromboxane
cascade. Arteriosclerosis and Thrombosis 12, 1380-1386.
\par
Miyamoto
M. and Takisawa S. (1975) Brief communication: Colon carcinoma of highly
inbred rats. J. Natl. Cancer Inst. 55, 1471-1472.
\par
Moloney
W. C., Boschetti A. E., and King V. (1969) Observations on leukemia in
Wistar Furth rats. Cancer Res. 29, 938-946.
\par
Molteni
A., Nickerson P. A., Gallant S., and Brownie A. C. (1975) Resistance of
W/Fu rats to adrenal regeneration hypertension. Proc. Soc. Exp. Biol.
Med. 150, 80-84.
\par
Stankus
R. P. and Leslie G. A. (1976) Rat interstrain antibody response and crossidiotypic
specificity. Immunogenet. 3, 65-73.
\par
Takahashi
H., Shoji T., Tsubura A., and Morii S. (1992) Neoplastic response to DMBA
powder in mammary and interscapular tissues in Wistar Furth and Copenhagen
female rats. International Journal of Oncology 1, 657-659.
\par
Tanase
H., Yamori Y., Hansen C. T., and Lovenberg W. (1982) Heart size in inbred
strains of rats. Part 1. Genetic determination of the development of cardiovascular
enlargement in rats. Hypertension 4, 864-872.
\par
Zieverink
W. D. and Moloney W. C. (1965) Use of the Y chromosome in the Wistar/Furth
rat as a cellular marker. Proc. Soc. Exp. Biol. Med. 119,
370-373.
INBRED STRAINS OF RATS
Updated 9 Apr. 1998
Michael FW
Festing
MRC Toxicology Unit, Hodgkin Building,
University of Leicester,
UK
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