Mutational and Functional Analysis of the C-Terminal Region of the C3H Mouse Mammary Tumor Virus Superantigen
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1998Author
THOMAS J. WRONA
MARY LOZANO
AWADH A. BINHAZIM
JAQUELIN P. DUDLEY
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The mouse mammary tumor virus (MMTV) encodes within the U3 region of the long terminal repeat (LTR)
a protein known as the superantigen (Sag). Sag is needed for the efficient transmission of milk-borne virus
from the gut to target tissue in the mammary gland. MMTV-infected B cells in the gut express Sag as a type
II transmembrane protein that is recognized by the variable region of particular beta chains (Vb) of the T-cell
receptor (TCR) on the surface of T cells. Recognition of Sag by particular TCRs results in T-cell stimulation,
release of cytokines, and amplification of MMTV infection in lymphoid cells that are needed for infection of
adolescent mammary tissue. Because the C-terminal 30 to 40 amino acids of Sag are variable and correlate with
recognition of particular TCR Vb chains, we prepared a series of C-terminal Sag mutations that were
introduced into a cloned infectious MMTV provirus. Virus-producing XC rat cells were used for injection of
susceptible BALB/c mice, and these mice were monitored for functional Sag activity by the deletion of C3H
MMTV Sag-reactive (CD41 Vb141) T cells. Injected mice also were analyzed for mutant infection and tumor
formation in mammary glands as well as milk-borne transmission of MMTV to offspring. Most mutations
abrogated Sag function, although one mutation (HPA242) that changed the negative charge of the extreme C
terminus to a positive charge created a weaker Sag that slowed the kinetics of Sag-mediated T-cell deletion.
Despite the lack of Sag activity, many of the sag mutant viruses were capable of sporadic infections of the
mammary glands of injected mice but not of offspring mice, indicating that functional Sag increases the
probability of milk-borne MMTV infection. Furthermore, although most viruses encoding nonfunctional Sags
were unable to cause mammary tumors, tumors were induced by such viruses carrying mutations in a negative
regulatory element that overlaps the sag gene within the LTR, suggesting that loss of Sag function may be
compensated, at least partially, by loss of transcriptional suppression in certain tissues. Together these results
confirm the importance of Sag for efficient milk-borne transmission and indicate that the entire C-terminal
region is needed for complete Sag function.