Methods and compositions relating to improved lentiviral vectors and their applications

What is claimed is: 1. A self-inactivating recombinant lentiviral vector comprising: (a) an expression cassette comprising a transgene positioned under the control of a promoter, other than a CMV promoter, that is active to promote detectable transcription of the transgene at a signal-to-noise ratio of between about 10 and about 200 in a human T cell; and (b) an LTR region that has reduced promoter activity relative to wild-type LTR. 2. The vector of claim 1 , further defined as incapable of reconstituting a wild-type lentivirus through recombination. 3. The vector of claim 2 , wherein the promoter is capable of promoting expression of the transgene at a signal-to-noise ratio of between about 40 and about 200. 4. The vector of claim 3 , wherein the promoter is capable of promoting expression of the transgene at a signal-to-noise ratio of between about 150 and about 200. 5. The vector of claim 3 , wherein the promoter is an EF1-α promoter, a PGK promoter, a gp91hox promoter, a MEW class II promoter, a clotting Factor IX promoter, a clotting Factor V111 promoter, an insulin promoter, a PDX1 promoter, a CD11 promoter, a CD4 promoter, a CD2 promoter or a gp47 promoter. 6. The vector of claim 5 , wherein the transgene is positioned under the control of the EF1-α promoter. 7. The vector of claim 5 , wherein the transgene is positioned under the control of the PGK promoter. 8. The vector of claim 1 , wherein the transgene is erythropoietin, an interleukin, a colony-stimulating factor, integrin αIIbβ, a multidrug resistance gene, gp91hox, gp 47, an antiviral gene, a gene coding for blood coagulation factor VIII, a gene coding for blood coagulation factor IX, a T cell antigen receptor, a B cell antigen receptor, a single chain antibodies (ScFv), TNF, gamma interferon, CTLA4, B7, Melana, MAGE. 9. The vector of claim 8 , wherein the transgene is gp91hox. 10. The vector of claim 8 , wherein the transgene is gp 47. 11. The vector of claim 8 , wherein the transgene is Interleukin-2. 12. The vector of claim 8 , wherein the transgene is Interleukin-12. 13. The vector of claim 8 , wherein the transgene is a gene coding for blood coagulation factor VIII. 14. The vector of claim 8 , wherein the transgene is a gene coding for blood coagulation factor IX. 15. The vector of claim 1 , further comprising a posttranscriptional regulatory sequence positioned to promote the expression of the transgene. 16. The vector of claim 15 , wherein the posttranscriptional regulatory sequence is an intron positioned within the expression cassette. 17. The vector of claim 16 , wherein the intron is positioned in an orientation opposite the vector genomic transcript. 18. The vector of claim 15 , wherein the posttranscriptional regulatory sequence is a posttranscriptional regulatory element. 19. The vector of claim 18 , wherein the posttranscriptional regulatory element is woodchuck hepatitis virus posttranscriptional regulatory element (WPRE). 20. The vector of claim 18 , wherein the posttranscriptional regulatory element is hepatitis B virus posttranscriptional regulatory element (HPRE). 21. The vector of claim 1 , wherein the LTR region has been rendered substantially transcriptionally inactive by virtue of deletions in the U3 region of the 3′ LTR. 22. A host cell transduced with a vector in accordance with claim 1 . 23. The transduced host cell of claim 22 , wherein the cell is a virus producer cell. 24. The transduced host cell of claim 23 , wherein the producer cell is a 293T cell. 25. The host cell of claim 22 , wherein the cell is a human hematopoietic progenitor cell. 26. A self-inactivating recombinant lentiviral vector comprising: (a) an expression cassette comprising a transgene positioned under the control of an EF1-α promoter that is active to promote detectable transcription of the transgene in a human T cell at a signal-to-noise ratio of between about 150 and about 200; and (b) an LTR region that has been rendered substantially transcriptionally inactive by virtue of deletions in the U3 region of the 3′ LTR. 27. A method for transducing a human T cell comprising contacting a population of human T cells with a vector in accordance with claim 1 under conditions to effect the transduction of a human T cell in said population by said vector. 28. The method of claim 27 , wherein the T cell in transduced in vivo. 29. The method of claim 27 , wherein the T cell is transduced in vitro. 30. The method of claim 27 , wherein the transduced T cell is infused into a human subject. 31. The self-inactivating recombinant vector of claim 1 , wherein the transgene encodes a T cell antigen receptor. 32. The self-inactivating recombinant vector of claim 26 , wherein the transgene encodes a T cell antigen receptor. 33. The self-inactivating recombinant vector of claim 1 , wherein the transgene encodes a T cell antigen receptor in combination with an scFv. 34. The self-inactivating recombinant vector of claim 26 , wherein the transgene encodes a T cell antigen receptor in combination with an scFv. 35. The self-inactivating recombinant vector of claim 1 , wherein the transgene encodes an scFv. 36. The self-inactivating recombinant vector of claim 26 , wherein the transgene encodes an scFv.