Bispecific molecules that are immunoreactive with immune effector cells that express an activating receptor and an antigen expressed by a cell infected by a virus and uses thereof

What is claimed is: 1. A bispecific diabody molecule comprising a covalently linked complex comprising at least a first polypeptide chain, a second polypeptide chain, and a third polypeptide chain, wherein: I. said first polypeptide chain comprises a binding region of a light chain variable domain of a first immunoglobulin (VL1) and a binding region of a heavy chain variable domain of a second immunoglobulin (VH2), wherein said VL1 and said VH2 do not associate with one another to form an epitope-binding domain; II. said second polypeptide chain comprises a binding region of a light chain variable domain of the second immunoglobulin (VL2) and a binding region of a heavy chain variable domain of the first immunoglobulin (VH1), wherein said VL2 and said VH1 do not associate with one another to form an epitope-binding domain; wherein said first polypeptide chain or said second polypeptide chain further comprises a CH2-CH3 region of an Fc region; and III. said third polypeptide chain comprises a CH2-CH3 region of an Fc region; and wherein: (A) said VL1 and said VH1 associate to form a first epitope-binding domain capable of immunospecifically binding to an epitope of an activating receptor of an immune effector cell, wherein said immune effector cell is a T-cell, a CD4+ T-cell, a CD8+ T-cell, a natural killer cell, a macrophage, a granulocyte, or a dendritic cell; and (B) said VH2 and said VL2 associate to form a second epitope-binding domain capable of immunospecifically binding to an epitope of a virus antigen expressed by a cell infected with a virus, wherein said virus is EBV, HSV, CMV, HIV, HBV, HCV, HPV, or influenza virus. 2. The bispecific diabody molecule of claim 1 , wherein said cell is latently infected with said virus. 3. The bispecific diabody molecule of claim 1 , wherein said virus antigen expressed by said cell infected with said virus is selected from the group consisting of LMP-1, LMP-2, influenza virus M2 protein, HIV env protein, HPV E6 and HPV E7. 4. The bispecific diabody molecule of claim 1 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said infected cell and is not detectable on said virus by said bispecific diabody molecule as determined by an immunoassay. 5. The bispecific diabody molecule of claim 1 , wherein said epitope on said effector cell is a CD3 epitope, a CD4 epitope, a CD8 epitope, a CD2 epitope, a CD16 epitope, a TCR epitope, or an NKG2D epitope. 6. The bispecific diabody molecule of claim 1 , wherein said first epitope-binding domain is an epitope-binding domain from a CD3 antibody, a CD4 antibody, a CD8 antibody, a CD2 antibody, a CD16 antibody, a TCR antibody, or an NKG2D antibody. 7. The bispecific diabody molecule of claim 1 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said cell at a level that is at least 2 times greater than the level at which said virus antigen is detected on said virus by said bispecific diabody molecule as determined by an immunoassay. 8. The bispecific diabody molecule of claim 7 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said cell at a level that is at least 5 times greater than the level at which said virus antigen is detected on said virus by said bispecific diabody molecule as determined by an immunoassay. 9. The bispecific diabody molecule of claim 8 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said cell at a level that is at least 10 times greater than the level at which said virus antigen is detected on said virus by said bispecific diabody molecule as determined by an immunoassay. 10. The bispecific diabody molecule of claim 9 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said cell at a level that is at least 100 times greater than the level at which said virus antigen is detected on said virus by said bispecific diabody molecule as determined by an immunoassay. 11. The bispecific diabody molecule of claim 1 , wherein said virus antigen expressed by said cell infected with said virus is detectably present on said infected cell and is not detectable by said bispecific diabody molecule on a cell not infected with said virus. 12. The bispecific diabody molecule of claim 1 , wherein said molecule comprises an Fc domain or portion thereof. 13. The bispecific diabody molecule of claim 1 , wherein: (A) said activating receptor is CD3, and said virus antigen expressed by a cell infected with a virus is EBV LMP-1; or (B) said activating receptor is TCR, and said virus antigen expressed by a cell infected with a virus is EBV LMP-2; or (C) said activating receptor is CD3, and said virus antigen expressed by a cell infected with a virus is HPV E6 in the context of MCH class I; or (D) said activating receptor is CD16, and said virus antigen expressed by a cell infected with a virus is HIV env; or (E) said activating receptor is CD3, and said virus antigen expressed by a cell infected with a virus is HIV gp120; or (F) said activating receptor is CD3, and said virus antigen expressed by a cell infected with a virus is HIV env. 14. A pharmaceutical composition comprising the bispecific diabody molecule of claim 1 and a pharmaceutically acceptable carrier. 15. A method of treating a latent virus infection, or a persistent virus infection, or an inactive virus infection in an individual in need of such treatment, said method comprising the step of administering a therapeutically effective amount of the bispecific diabody molecule of claim 1 to said individual. 16. A method of killing a cell containing a viral genome, or a cell expressing a viral protein, said method comprising the step of contacting said cell with the bispecific diabody molecule of claim 1 , thereby killing said cell containing said viral genome, or expressing said viral protein. 17. The bispecific diabody molecule of claim 1 , wherein said first polypeptide chain further comprises a cysteine residue and an E coil or a K coil, and wherein said second polypeptide chain further comprises: a cysteine residue and a K coil if said first polypeptide chain comprises an E coil; or a cysteine residue and an E coil if said first polypeptide chain comprises a K coil. 18. The bispecific diabody molecule of claim 3 , wherein said second epitope-binding domain comprises the six CDRs of: (i) the anti-LW-1 antibody HHV-4; (ii) the anti-LW-2 antibody 14B7; (iii) the anti-HPV E6 antibody 29-10267; (iv) the anti-HIV env antibody A32; or (v) the anti-HIV env antibody 7B2.