The disclosure relates to polynucleotides comprising an open reading frame of linked nucleosides encoding human methylmalonyl-CoA mutase precursor, human methylmalonyl-CoA mutase (MCM) mature form, or functional fragments thereof. In some embodiments, the disclosure includes methods of treating methylmalonic acidemia in a subject in need thereof comprising administering an mRNA encoding an MCM polypeptide.

The disclosure relates to polynucleotides comprising an open reading frame of linked nucleosides encoding human methylmalonyl-CoA mutase precursor, human methylmalonyl-CoA mutase (MCM) mature form, or functional fragments thereof. In some embodiments, the disclosure includes methods of treating methylmalonic acidemia in a subject in need thereof comprising administering an mRNA encoding an MCM polypeptide.

The present invention provides a novel method of treatment for treating brain disorders that manifest oxidative stress by providing targeted populations of neurons with the ability to catabolize the acetylated amino acid derivative, N-acetylaspatic acid (NAA) and further supply extraphysiological levels of ATP to neurons via the targeted expression of the NAA catabolic enzyme aspartoacylase (ASPA) in neurons and astrocytes.

The present invention provides a novel method of treatment for treating brain disorders that manifest oxidative stress by providing targeted populations of neurons with the ability to catabolize the acetylated amino acid derivative, N-acetylaspatic acid (NAA) and further supply extraphysiological levels of ATP to neurons via the targeted expression of the NAA catabolic enzyme aspartoacylase (ASPA) in neurons and astrocytes.

A pharmaceutical composition includes a cell-free conditioned medium (CM) or extract or concentrate thereof obtained from a mammalian cell culture medium comprising a cultured substantially homogenous non-cancerous mammalian cell population. At least a portion of the non-cancerous mammalian cell population is contacted by at least one small molecule cell growth signaling pathway activator before being cultured in the cell culture medium.

A pharmaceutical composition includes a cell-free conditioned medium (CM) or extract or concentrate thereof obtained from a mammalian cell culture medium comprising a cultured substantially homogenous non-cancerous mammalian cell population. At least a portion of the non-cancerous mammalian cell population is contacted by at least one small molecule cell growth signaling pathway activator before being cultured in the cell culture medium.

Drug compositions of angiogenesis therapy contain gene coding for human prostacyclin synthase (hPGIS) synthesizing prostaglandin I.sub.2 with activities of vasodialation and/or anti-platelet aggregation; drug compositions contain adeno-associated virus (AAV) inserted with gene for angiogenesis factors. The administration of the drug compositions into the aimed treatment region results in transfer of AAV type 1-hPGIS to skeletal muscles and induces a notable expression of human PGIS gene in skeletal muscles. The PGI.sub.2 is produced by mediation of the gene expression in the muscle cells, secreted, induces vessel-protective, neovascularization and anti-platelet aggregation actions, which lead to an improvement in vascular ischemia.

Drug compositions of angiogenesis therapy contain gene coding for human prostacyclin synthase (hPGIS) synthesizing prostaglandin I.sub.2 with activities of vasodialation and/or anti-platelet aggregation; drug compositions contain adeno-associated virus (AAV) inserted with gene for angiogenesis factors. The administration of the drug compositions into the aimed treatment region results in transfer of AAV type 1-hPGIS to skeletal muscles and induces a notable expression of human PGIS gene in skeletal muscles. The PGI.sub.2 is produced by mediation of the gene expression in the muscle cells, secreted, induces vessel-protective, neovascularization and anti-platelet aggregation actions, which lead to an improvement in vascular ischemia.

Drug compositions of angiogenesis therapy contain gene coding for human prostacyclin synthase (hPGIS) synthesizing prostaglandin I.sub.2 with activities of vasodialation and/or anti-platelet aggregation; drug compositions contain adeno-associated virus (AAV) inserted with gene for angiogenesis factors. The administration of the drug compositions into the aimed treatment region results in transfer of AAV type 1-hPGIS to skeletal muscles and induces a notable expression of human PGIS gene in skeletal muscles. The PGI.sub.2 is produced by mediation of the gene expression in the muscle cells, secreted, induces vessel-protective, neovascularization and anti-platelet aggregation actions, which lead to an improvement in vascular ischemia.

Provided are methods for modification of amino acid sequence and increasing levels of expression of ApoA-I Binding Protein to treat: a neuropathic pain, a CNS inflammation, an allodynia, a post nerve injury pain, a post-surgical pain, a chemotherapeutic-induced peripheral neuropathy, a neurodegeneration, including for example, a neurodegenerative disease or condition such as Alzheimer's disease, a hyperalgesia, primary headaches such as migraines and cluster headaches, glaucoma or other inflammatory diseases of the eye, lung inflammation, asthma, HIV infection, vascular inflammation, atherosclerosis and cardiovascular disease. Provided are methods comprising administering pharmaceutical compositions comprising a recombinantly modified APOA1BP polypeptide to treat a neuropathic pain, an allodynia, a hyperalgesia, a neurodegenerative disease, a primary headache such as a migraine, glaucoma, lung inflammation and asthma, acute respiratory distress syndrome (ARDS), sepsis, viral infection, including influenza, coronavirus (for example, COVID-19) or HIV infection, or its comorbidities, and/or vascular inflammation, atherosclerosis and cardiovascular disease.