The present invention is directed to antibodies and fragments thereof having binding specificity for ACTH. Another embodiment of this invention relates to the antibodies binding fragments thereof described herein, comprising the sequences of the V.sub.H, V.sub.L and/or CDR polypeptides described herein, and the polynucleotides encoding them. The invention also contemplates conjugates of anti-ACTH antibodies and binding fragments thereof conjugated to one or more functional or detectable moieties. The invention further contemplates methods of making said anti-ACTH antibodies and binding fragments thereof. Embodiments of the invention also pertain to the use of anti-ACTH antibodies and binding fragments thereof for the diagnosis, assessment, prevention and treatment of diseases and disorders associated with ACTH, such as Cushing's Disease, Cushing's Syndrome, Parkinson's disease, obesity, diabetes, sleep disorders depression, anxiety disorders, cancer, muscle atrophy, hypertension, hyperinsulinemia, cognitive dysfunction, Alzheimer's disease, galactorrhea, stress related conditions, cardiac conditions, metabolic syndrome, hyperaldosteronism, Conn's syndrome and familial hyperaldosteronism.

The present invention pertains to: an antibody that specifically recognizes cancer stem cells; a pharmaceutical composition containing the antibody, in particular a pharmaceutical composition for treating cancer; the utilization of these; a method for treating cancer, the method targeting cancer stem cells; etc. The above problem was solved by providing an antibody that recognizes a complex of a cancer stem cell antigen peptide and an MHC, and a pharmaceutical composition containing the antibody as an active component.

Provided herein are antibodies that selectively bind to complex comprising a non-classical HLA-I (e.g. HLA-E) and a neoantigen having variable heavy chain domains (VH), variable light chain domains (VL), and complementarity determining regions (CDRs) as disclosed herein, as well as methods and uses thereof.

In one aspect, the invention relates to a method suitable for administering protein therapeutic molecules orally, sublingually, topically, intravenously, subcutaneously, nasally, vaginally, rectally or by inhalation so as to avoid inactivation, by using VHH polypeptides derived from Camelidae antibodies. The invention further relates to the said therapeutic molecules. The invention further a method for delivering therapeutic molecules to the interior of cells. The invention further relates to anti-IgE therapeutic molecules. In one aspect, the present invention relates to a method wherein an immunoglobulin single variable domain (such as a Nanobody) and/or construct thereof are absorbed in pulmonary tissue. More particularly, the invention provides systemic delivery of an immunoglobulin single variable domain and/or construct thereof via the pulmonary route.

The present invention relates to antibody compositions directed to Interleukin 1 Receptor Accessory Protein (IL1RAP) and their use in the treatment and diagnosis of diseases associated with IL1RAP, such as inflammatory, autoimmune, autoinflammatory and neoplastic disorders.

The invention relates to a novel hetero-dimeric multi-specific format of multiple antibody variable domains comprising a core of two split variable domain pairs wherein both variable light domains and the two cognate variable heavy domains are positioned in tandem on two separate protein chains, respectively.

The present invention provides molecules, such as ISVDs and Nanobodies, that bind to PD1 and LAG3 and, optionally to human serum albumin. These molecules have been engineered so as to reduce the incidence of binding by pre-existing antibodies in the bodies of a subject administered such a molecule. Methods for increasing immune response, treating cancer and/or treating an infectious disease with such molecules are provided.

The invention relates to a multispecific antigen-binding molecule specifically binding to CD16A and consisting of two polypeptide chains, wherein each polypeptide chain comprises at least four variable domains from the N-terminus to the C-terminus in the order: VH_BCMA-VL_CD16A-VH_CD16A-VL_BCM

Disclosed are bispecific molecules, referred to herein as ubiquibodies, that are able to ubiquitinate target cell surface receptors on a target cell. The ubiquibodies can be engineered from fusion polypeptides comprising 1) variable domains of antibodies that specifically bind a target cell surface receptor and 2) variable domains of antibodies that specifically bind a transmembrane E3 ubiquitin ligase (TMUL). Either or both components of the ubiquibodies can also be engineered from non-antibody scaffolds including but not limited to nanobodies, monobodies, cyclic peptides, small molecules, and designed ankyrin repeat proteins (Darpins).

The present invention generally relates to antibodies that bind to CD3, including multi specific antibodies e.g. for activating T cells. In addition, the present invention relates to polynucleotides encoding such antibodies, and vectors and host cells comprising such polynucleotides. The invention further relates to methods for producing the antibodies, and to methods of using them in the treatment of disease.