Abstract: Materials and methods for transferring nucleic acid encoding a polypeptide for treating a disease or disorder into populations of quiescent cells such as haematopoietic stem cells (HSCs), using retroviral packaging cell lines and retroviral particles expressing and displaying a growth factor such as stem cell factor (SCF) on the cell surface or as a fusion with a viral envelope protein. The present invention also relates compositions comprising the retroviral packaging cell lines and viral particles, and their use in methods of medical treatment, in vivo and ex vivo.

Abstract: Disclosed are compositions comprising a recombinant nucleic acid vector including a nucleotide sequence encoding a syncytium-inducing polypeptide expressible on a eukaryotic cell surface, and a host cell containing the recombinant vector and expressing the syncytium inducing polypeptide on its cell surface, the vectors and resultant host cells expressing the syncytium inducing polypeptide being useful for selective elimination of unwanted cells.

Abstract: Materials and methods for transferring nucleic acid encoding a polypeptide for treating a disease or disorder into populations of quiescent cells such as haematopoietic stem cells (HSCs), using retroviral packaging cell lines and retroviral particles expressing and display a growth factor such as stem cell factor (SCF) on the cell surface or as a fusion with a viral envelope protein. The present invention also relates to compositions comprising the retroviral packaging cell lines and retroviral particles, and their use in methods of medical treatment, in vivo and ex vivo.

Abstract: A novel strategy for monitoring the location of a transgene in a mammal is disclosed. A sodium iodide symporter is genetically fused to either the N-terminus or C-terminus of the product of a transgene through a linker peptide which bears the recognition sequence of a host cell protease. Expression of the transgene confers the activity of the sodium iodide symporter (NIS)to a host cell which expresses the transgene. Subsequent administration of labeled iodine results in transport of the labeled iodine into the cell bearing the NIS, which can then be localized and measured using standard imaging techniques. The system is particularly useful for monitoring the location of therapeutic transgenes and tissue-specific distribution of the therapeutic gene product.

Abstract: A novel strategy for monitoring the expression of a transgene in a patient is disclosed. A marker peptide is genetically fused to either the N-terminus or C-terminus of the product of a transgene through a linker peptide which bears the recognition sequence of a host cell protease. Expression of the transgene results in release of the marker peptide into extracellular body fluid of the patient in proportion to the amount of transgene product. The level of the released marker peptide serves as an indicator of the level of transgene expression. The system is particularly useful for monitoring the expression of therapeutic transgenes and production of the therapeutic gene product.

Abstract: A novel strategy for monitoring the location of a transgene in a mammal is disclosed. A sodium iodide symporter is genetically fused to either the N-terminus or C-terminus of the product of a transgene through a linker peptide which bears the recognition sequence of a host cell protease. Expression of the transgene confers the activity of the sodium iodide symporter (NIS) to a host cell which expresses the transgene. Subsequent administration of labeled iodine results in transport of the labeled iodine into the cell bearing the NIS, which can then be localized and measured using standard imaging techniques. The system is particularly useful for monitoring the location of therapeutic transgenes and tissue-specific distribution of the therapeutic gene product.

Abstract: Compositions and Methods for Elimination of Unwanted Cells Disclosed are compositions comprising a recombinant nucleic acid vector including a nucleotide sequence encoding a syncytium-inducing polypeptide expressible on a eukaryotic cell surface, and a host cell containing the recombinant vector and expressing the syncytium inducing polypeptide on its cell surface, the vectors and resultant host cells expressing the syncytium inducing polypeptide being useful for selective elimination of unwanted cells.

Abstract: Materials and methods for transferring nucleic acid encoding a polypeptide for treating a disease or disorder into populations of quiescent cells such as haematopoietic stem cells (HSCs), using retroviral packaging cell lines and retroviral particles expressing and displaying a growth factor such as stem cell factor (SCF) on the cell surface or as a fusion with a viral envelope protein. The present invention also relates to compositions comprising the retroviral packaging cell lines and retroviral particles, and their use in methods of medical treatment, in vivo and ex vivo.

Abstract: Disclosed is a method of inhibiting intracellular infection of a eukaryotic cell by a microorganism, comprising introducing into the cell a nucleic acid sequence directing the expression on the surface of the cell of a protective polypeptide receptor molecule which has high binding affinity for a component of a microorganism capable of exsisting intracellularly, such that binding of the microorganism to the protective polypeptide prevents productive infection of the cell by the micoorganism.

Abstract: Disclosed is a cell which expresses a surface marker associated with a professional antigen presenting cell, and a fusogenic membrane protein, where the cell may also express at its surface a tumor cell marker. Also disclosed is a fusion hybrid formed by the fusion of a tumor cell and a professional antigen presenting cell (APC) such that the resulting fusion hybrid expresses an APC marker, a tumor cell marker, and a fusogenic membrane glycoprotein. Also disclosed are compositions comprising the cells and fusion hybrids, and methods of making and using the hybrids.

Abstract: Disclosed are various compositions for use in the delivery of nucleic acid to a target cell including: a composition comprising a calcium salt in particulate form, the nucleic acid to be delivered, and one or more further components to enhance the efficiency of delivery of the nucleic acid to a target cell, the nucleic acid and the one or more further components being complexed with the particulate calcium salt; and methods of delivering a nucleic acid to a target cell.

Abstract: Disclosed is a method of testing a substance for the ability to affect the formation or oligomerization of a complex comprising members of a specific binding pair, a first member of the binding pair being present on the surface of a lipid enveloped particle comprising a transferrable label, said first member of the binding pair being capable of binding to a second member of the specific binding pair present on the surface of a cell, the lipid envelope of the particle being capable of fusing with the membrane of the cell so as to transfer the label to the cell, said transfer being inhibited by formation or oligomerization of a complex between the first and second members of the binding pair, wherein the method comprises reacting the particle and the cell, in the presence of the substance under test, (under conditions which would allow for binding of the first and second members of the specific binding pair in the absence of the substance under test), and detecting the label transferred, if any; together with a

Abstract: The invention relates to a recombinant viral particle capable of delivering a nucleic acid to mammalian cells, the particle including a member of a first specific binding pair capable of binding to a first receptor expressed on the surface of a cell so as to cause infection thereof, and a surface-exposed member of a second specific binding pair capable of binding to a second receptor generally not expressed on the surface of the cell, such that binding of the viral particle to the second receptor via the member of the second specific binding pair inhibits infection of the cell by the viral particle.

Abstract: The invention provides a recombinant viral particle for delivering a nucleic acid to mammalian cells, the particle comprising an MLV-env protein that binds to an MLV-env receptor expressed on the surface of a target cell so as to cause infection thereof, and a surface-exposed EGF that binds to an EGF receptor generally not expressed on the surface of the target cell, but expressed on non-target cells that also express the MLV-env receptor, such that binding of the viral particle to the EGF receptor via EGF inhibits infection of the non-target cell by the viral particle.