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 molecule, wherein said molecule is a diabody molecule comprising first, second and third polypeptide chains, wherein: (A) the first polypeptide chain comprises, in the N-terminal to C-terminal direction: (i) a domain (A) comprising a binding region of a light chain variable domain of a first immunoglobulin (VL1) specific for an epitope (1); (ii) a domain (B) comprising a binding region of a heavy chain variable domain of a second immunoglobulin (VH2) specific for an epitope (2); and (iii) a domain (C) comprising a cysteine residue and an E coil or a K coil; (B) the second polypeptide chain comprises, in the N-terminal to C-terminal direction: (i) a domain (D) comprising a binding region of a light chain variable domain of the second immunoglobulin (VL2) specific for epitope (2); (ii) a domain (E) comprising a binding region of a heavy chain variable domain of the first immunoglobulin (VH1) specific for epitope (1); (iii) a domain (F) comprising: (1) a cysteine residue and a K coil if the first polypeptide has an E coil; or (2) a cysteine residue and an E coil if the first polypeptide has a K coil; and (iv) a CH2-CH3 region of an Fc region; (C) the third polypeptide chain comprises a CH2-CH3 region of an Fc region; and (D) (i) domains (A) and (B) do not associate with one another to form an epitope-binding domain; (ii) domains (D) and (E) do not associate with one another to form an epitope-binding domain; (iii) domains (A) and (E) associate to form an epitope-binding domain that binds epitope (1), and domains (B) and (D) associate to form an epitope-binding domain that binds epitope (2), wherein: (a) epitope (1) is an epitope of an activation receptor of an immune effector cell, and epitope (2) is an epitope of an antigen expressed by a cell infected with a virus; or (b) epitope (1) is an epitope of an antigen expressed by a cell infected with a virus, and epitope (2) is an epitope of an activation receptor of an immune effector cell; and (iv) domains (C) and (F) are covalently associated together by a disulfide bond. 2. The bispecific molecule of claim 1 , wherein said cell infected with said virus is latently infected with said virus. 3. The bispecific molecule of claim 1 , wherein said 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 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. 5. The bispecific molecule of claim 1 , wherein said molecule comprises 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. 6. The bispecific molecule of claim 1 , wherein said antigen expressed by said cell infected with said virus is detectably present on said cell and is not detected on a cell not infected by said bispecific molecule. 7. The bispecific molecule of claim 1 , wherein: (A) said activating receptor is CD3, and said antigen expressed by a cell infected with a virus is EBV LMP-1; or (B) said activating receptor is TCR, and said antigen expressed by a cell infected with a virus is EBV LMP-2; or (C) said activating receptor is CD3, and said 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 antigen expressed by a cell infected with a virus is HIV env; or (E) said activating receptor is CD3, and said antigen expressed by a cell infected with a virus is HIV env. 8. The bispecific molecule of claim 1 , wherein said molecule comprises: (i) the light chain variable domain of anti-HIV antibody A32 comprising amino acid residues 1-110 of SEQ ID NO: 46; and (ii) the heavy chain variable domain of said anti-HIV antibody A32 comprising amino acid residues 119-241 of SEQ ID NO: 47; and (iii) the light chain variable domain of humanized anti-CD3 Antibody 2 comprising amino acid residues 1-110 of SEQ ID NO:47; and (iv) the heavy chain variable domain of said humanized anti-CD3 Antibody 2 comprising amino acid residues 119-243 of SEQ ID NO:46. 9. A bispecific molecule, wherein said molecule is a diabody molecule comprising first and second polypeptide chains, wherein: (A) the first polypeptide chain comprises, in the N-terminal to C-terminal direction: (i) a domain (A) comprising a binding region of a light chain variable domain of a first immunoglobulin (VL1) specific for an epitope (1); (ii) a domain (B) comprising a binding region of a heavy chain variable domain of a second immunoglobulin (VH2) specific for an epitope (2); and (iii) a domain (C); (B) the second polypeptide chain comprises, in the N-terminal to C-terminal direction: (i) a domain (D) comprising a binding region of a light chain variable domain of the second immunoglobulin (VL2) specific for epitope (2); (ii) a domain (E) comprising a binding region of a heavy chain variable domain of the first immunoglobulin (VH1) specific for epitope (1); (iii) a domain (F); (C) (i) domains (A) and (B) do not associate with one another to form an epitope-binding domain; (ii) domains (D) and (E) do not associate with one another to form an epitope-binding domain; (iii) domains (A) and (E) associate to form an epitope-binding domain that binds epitope (1), and domains (B) and (D) associate to form an epitope-binding domain that binds epitope (2); (iv) domains (C) and (F) are covalently associated together; and (D) said molecule comprises: the light chain variable domain of anti-HIV antibody A32 comprising amino acid residues 1-110 of SEQ ID NO: 46; the heavy chain variable domain of said anti-HIV antibody A32 comprising amino acid residues 119-241 of SEQ ID NO: 47; the light chain variable domain of humanized anti-CD3 Antibody 2 comprising amino acid residues 1-110 of SEQ ID NO:47; and the heavy chain variable domain of said humanized anti-CD3 Antibody 2 comprising amino acid residues 119-243 of SEQ ID NO:46. 10. A pharmaceutical composition comprising the bispecific molecule of claim 1 , and a pharmaceutically acceptable carrier. 11. 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 molecule of claim 1 to said individual. 12. A method of killing a cell containing a viral genome, or a cell expressing a viral protein, said method comprises the step of contacting said cell with the bispecific molecule of claim 1 , whereby said cell containing said viral genome or expressing said viral protein is killed. 13. The bispecific molecule of claim 1 , wherein said molecule comprises: (i) the light chain variable domain of anti-HIV antibody 7B2 comprising amino acid residues 1-113 of SEQ ID NO: 48; and (ii) the heavy chain variable domain of said anti-HIV antibody 7B2 comprising amino acid residues 119-244 of SEQ ID NO: 49; and (iii) the light chain variable domain of humanized anti-CD3 Antibody 2 comprising amino acid residues 1-110 of SEQ ID NO:49; and (iv) the heavy chain variable domain of said humanized anti-CD3 Antibody 2 comprising amino acid residues 122-246 of SEQ ID NO:48. 14. A bispecific molecule, wherein said molecule is a diabody molecule comprising first and second polypeptide chains, wherein: (A) the first polypeptide chain comprises, in