Compositions and methods relating to antibodies that specifically bind to TGF-beta binding proteins are provided. These methods and compositions relate to altering bone mineral density by interfering with the interaction between a TGF-beta binding protein sclerostin and a TGF-beta superfamily member, particularly a bone morphogenic protein. Increasing bone mineral density has uses in diseases and conditions in which low bone mineral density typifies the condition, such as osteopenia, osteoporosis, and bone fractures.

Compositions and methods relating to antibodies that specifically bind to TGF-beta binding proteins are provided. These methods and compositions relate to altering bone mineral density by interfering with the interaction between a TGF-beta binding protein sclerostin and a TGF-beta superfamily member, particularly a bone morphogenic protein. Increasing bone mineral density has uses in diseases and conditions in which low bone mineral density typifies the condition, such as osteopenia, osteoporosis, and bone fractures.

The present invention relates to the treatment of muscular diseases.

A non-naturally occurring chimeric polypeptide having an activity provided by a TGF-beta family member is disclosed. The chimeric polypeptide of an embodiment comprises two or more domains or fragments from parental TGF-beta proteins operably linked such that the resulting polypeptide is capable of modulating a pathway associated with a TGF-beta family member. In one embodiment, the pathway is a SMAD or DAXX pathway.

The invention relates to a polypeptide selected from bone morphogenetic protein 10 (BMP10), or a bone morphogenetic protein 9 (BMP9) variant lacking osteogenic activity, for use in the treatment of a vascular disease or a respiratory disease. The invention also relates to novel BMP9 variants and to pharmaceutical compositions comprising said polypeptides.

The invention relates to a polypeptide selected from bone morphogenetic protein 10 (BMP10), or a bone morphogenetic protein 9 (BMP9) variant lacking osteogenic activity, for use in the treatment of a vascular disease or a respiratory disease. The invention also relates to novel BMP9 variants and to pharmaceutical compositions comprising said polypeptides.

Methods of activating GDF11 proteins in vitro as well as formulations of mature GDF11 polypeptides with enhanced solubility at neutral pH are provided.

Methods of activating GDF11 proteins in vitro as well as formulations of mature GDF11 polypeptides with enhanced solubility at neutral pH are provided.

The present disclosure relates to compositions and methods for inducing regeneration of periodontal tissue and bone in a subject. In certain aspects, the composition comprises at least one isolated RNA encoding at least one growth factor, or fragment or variant thereof. In one aspect, the composition comprises a nucleoside-modified RNA encoding at least one growth factor, or fragment or variant thereof.

Fusion proteins containing a half-life extension protein, a linker, and a GDF15 protein are described. Also described are nucleic acids encoding the fusion proteins, recombinant cells thereof, compositions comprising the fusion proteins, and methods of using the fusion proteins for treating or preventing metabolic diseases, disorders or conditions.