The present invention relates to succinimide-activated nitroxyl compounds and methods for the synthesis of such compounds. The present invention also relates to the use of succinimide-activated nitroxyl compounds to prepare nitroxylated proteins, for example nitroxylated heme proteins (e.g., nitroxylated hemoglobin and nitroxylated myoglobin). The nitroxylated proteins are optionally also conjugated to a polyalkylene oxide (PAO), for example to a polyethylene glycol (PEG). Polynitroxylated heme proteins are useful as oxygen therapeutic agents (OTAs). The invention further relates to pharmaceutical compositions of the nitroxylated proteins and methods for the use of nitroxylated proteins in the treatment of various conditions.

The present invention relates to succinimide-activated nitroxyl compounds and methods for the synthesis of such compounds. The present invention also relates to the use of succinimide-activated nitroxyl compounds to prepare nitroxylated proteins, for example nitroxylated heme proteins (e.g., nitroxylated hemoglobin and nitroxylated myoglobin). The nitroxylated proteins are optionally also conjugated to a polyalkylene oxide (PAO), for example to a polyethylene glycol (PEG). Polynitroxylated heme proteins are useful as oxygen therapeutic agents (OTAs). The invention further relates to pharmaceutical compositions of the nitroxylated proteins and methods for the use of nitroxylated proteins in the treatment of various conditions.

The disclosure provides compositions and methods useful for the depletion of a specific population of endogenous hematopoietic stem cells and/or immune cells from a subject prior to transplantation with genetically modified stem cells to improve the engraftment of the transplanted stem cells and provide gene therapy. The disclosure provides compositions and methods for the treatment of various hematopoietic diseases, metabolic disorders, cancers, and autoimmune diseases, among others. Described herein are antibodies, antigen-binding fragments, and conjugates thereof that can be applied to effect the treatment of these conditions, for instance, by depleting a population of CD117+ or CD45+ cells in a patient, such as a human.

In certain embodiments a lentiviral vector having an LCR comprising HS1 ENCODE core (EC1) sequence (SEQ ID NO:1), and one or more of an HS2 core sequence (ecHS2), an HS3 core sequence (ecHS3), an HS4 core sequence (ecHS4), a full length HS2, a full length HS3, and/or a full length HS4 sequence is provided. In certain embodiments the vector comprises a modified βAS3-globin transgene, where transgene comprises a codon optimized exon 1, and/or a codon optimized exon 2, and/or a codon optimized exon 3.

In certain embodiments a lentiviral vector having an LCR comprising HS1 ENCODE core (EC1) sequence (SEQ ID NO:1), and one or more of an HS2 core sequence (ecHS2), an HS3 core sequence (ecHS3), an HS4 core sequence (ecHS4), a full length HS2, a full length HS3, and/or a full length HS4 sequence is provided. In certain embodiments the vector comprises a modified βAS3-globin transgene, where transgene comprises a codon optimized exon 1, and/or a codon optimized exon 2, and/or a codon optimized exon 3.

Methods and compositions disclosed herein generally relates to methods of determining minimum hematopoietic stem cell (HSC) chimerism and gene dosage for correction of a hematopoietic disease; in particular, in in vivo models. The invention also relates to modified lentiviral expression vectors for increasing a viral titer and various methods for increasing such titers as well as expression vectors capable of enhancing such titers. The invention also relates to CHS4 chromatin insulator-derived functional insulator sequences. The invention also relates to methods for genetic correction of diseases or reducing symptoms thereof, such as sickle cell anemia or β-thalassemia.

Methods and compositions disclosed herein generally relates to methods of determining minimum hematopoietic stem cell (HSC) chimerism and gene dosage for correction of a hematopoietic disease; in particular, in in vivo models. The invention also relates to modified lentiviral expression vectors for increasing a viral titer and various methods for increasing such titers as well as expression vectors capable of enhancing such titers. The invention also relates to CHS4 chromatin insulator-derived functional insulator sequences. The invention also relates to methods for genetic correction of diseases or reducing symptoms thereof, such as sickle cell anemia or β-thalassemia.

The present invention features compositions and methods for editing deleterious mutations associated with hemoglobinopathies, such as sickle cell disease (SCD). In particular embodiments, the invention provides methods for correcting mutations in a beta globin polynucleotide using modified adenosine base editors termed “ABE8” having unprecedented levels (e.g., >60-70%) of efficiency.

Disclosed herein are potency assays for a gene therapy treatment for β-thalassemia. Also disclosed herein are methods for measuring relative potency of a drug product.

This application describes transcriptional units, synthetic expression systems, and host cells comprising transcriptional units and synthetic expression systems, wherein the synthetic expression system is capable of expressing a gene of interest. Also described are methods for the production of bioproducts (including, but not limited to, proteins or RNA expressed from the gene of interest). In some embodiments, bioproducts are produced from host cells under culture conditions without addition of methanol.