C. Deheer et al., THE SCID-RA MOUSE - RAT T-CELL DIFFERENTIATION IN THE SEVERE COMBINEDIMMUNODEFICIENT MOUSE, APMIS. Acta pathologica, microbiologica et immunologica Scandinavica, 101(6), 1993, pp. 467-479
The SCID-hu mouse model offers the possibility to study the human thym
us in vivo in an isolated xenogeneic environment. Whilst studying the
toxicology of the human thymus using the SCID-hu model, a ''control''
model to test for differences in toxicokinetics due to the different l
ocalization of the thymus is desirable when SCID-hu data have to be ex
trapolated to the normal human situation. For this reason, SCID-ra mic
e were constructed by implanting rat fetal or postnatal thymus and liv
er explants under the renal capsule of severe combined immunodeficient
(SCID) mice. Implantation of rat fetal thymus in combination with fet
al liver resulted in thymus grafts with a histological appearance that
was virtually identical to that of normal age-matched rat thymus. T c
ells of rat origin were found in the circulating blood and lymphoid or
gans of the recipient mice. After implantation of postnatal thymus and
liver, the thymus grafts showed a dysplastic morphology. These grafts
were devoid of thymocytes and consisted mainly of thymic microenviron
mental components and large numbers of thymic macrophages. Some SCID-r
a mice showed signs of graft-versus-host (GVH) reactions in the skin.
The incidence of GVH reactions was higher with increasing developmenta
l stage of the donor material used for implantation.