The present disclosure provides pharmaceutical compositions comprising rationally designed peptide analogs of the p65-TAD binding region of GILZ to selectively sequester activated p65. Structural and functional analyses suggest that select GILZ analog (GA) bind p65-TAD with optimum affinity, exhibit an estimated half minimal lethal dose comparable to known peptide drugs and suppress Aβ1-42 induced cytotoxicity. Furthermore, the present disclosure provides uses and methods of using the pharmaceutical compositions, and uses and methods of using pharmaceutical formulations comprising the pharmaceutical compositions, for the treatment of neurodegenerative diseases such as Alzheimer's Disease, Parkinson's Disease, multiple sclerosis, and amyotrophic lateral sclerosis (ALS).

Disclosed are isolated or purified T cell receptors (TCRs) having antigenic specificity for human p53.sup.R175H or human p53.sup.Y220C. Related polypeptides and proteins, as well as related nucleic acids, recombinant expression vectors, host cells, populations of cells, and pharmaceutical compositions are also provided. Also disclosed are methods of detecting the presence of cancer in a mammal and methods of treating or preventing cancer in a mammal.

Provided herein are peptidomimetic macrocycles containing amino acid sequences with at least two modified amino acids that form an intramolecular cross-link that can help to stabilize a secondary structure of the amino acid sequence. Suitable sequences for stabilization include those with homology to the p53 protein. These sequences can bind to the MDM2 and/or MDMX proteins. Also provided herein are methods of using such macrocycles for the treatment of diseases and disorders, such as cancers or other disorders characterized by a low level or low activity of a p53 protein or high level of activity of a MDM2 and/or MDMX protein.

A method of obtaining cell derived vesicles comprising an active wild-type p53 is disclosed. The method comprising: (i) isolating cell derived vesicles from a biological sample comprising cells; and (ii) treating the cell derived vesicles with a DNA damaging agent, or the method comprising: (i) treating cells with a DNA damaging agent; and (ii) isolating cell derived vesicles from a biological sample comprising the cells. A proteinaceous preparation comprising cell derived vesicles and a pharmaceutical composition comprising the proteinaceous preparation are also disclosed. Methods of treating a disease, disorder or condition associated with a mutant or a nonfunctional p53 protein and methods of inducing apoptosis of a target cell comprising a mutant or a nonfunctional p53 protein are also disclosed.

The present invention relates to the technical fields of genetic engineering and bioinformatics, in particular, to a method for creating a new gene in an organism in the absence of an artificial DNA template, and a use thereof. The method comprises simultaneously generating DNA breaks at two or more different specific sites in the organism's genome, wherein the specific sites are genomic sites capable of separating different gene elements or different protein domains, and the DNA breaks are ligated to each other through non-homologous end joining (NHEJ) or homologous repair to generate a new combination of the different gene elements or different protein domains that is different from the original genome sequence, thereby creating a new gene. The new gene of the invention can change the growth, development, resistance, yield and other traits of the organism, and has great value in application.

The present invention relates to compositions and methods employing conjugates that include a self-assembly and disassembly (SADA) polypeptide and a binding domain. The present invention encompasses the recognition that conjugates with a SADA polypeptide have certain improved biological properties. SADA-conjugates are described, along with uses thereof (e.g., as therapeutic or diagnostic agents) and methods of manufacture.

The present application discloses a lentiviral transfer system which includes: (i) a self-inactivating transfer vector comprising: multiple gene units, wherein each gene unit includes a heterologous nucleic acid sequence operably linked to a regulatory nucleic acid sequence; and (ii) a helper construct which lacks a 5′ LTR, wherein the 5′ LTR has been replaced with a heterologous promoter, in which the helper construct further comprises: a lentiviral env nucleic acid sequence containing a deletion, wherein the deleted env nucleic acid sequence does not produce functional env protein; and a packaging signal contains a deletion, wherein the deleted packaging signal is nonfunctional.

Disclosed are p53 peptides and their use as biomarkers in the diagnosis and/or prognosis of Alzheimer's disease (AD) in a biological sample. The invention also provides for a diagnostic method based on a highly accurate mass spectrometry analysis for the diagnosis of Alzheimer's disease at the pre-clinical and prodromal stages of the disease and for the prognosis of cognitive decline in a subject, by quantitating the levels of said p53 peptides specifically in human plasma of patients.

The present invention relates to cancer therapy, in particular cancer immunotherapy. In particular, the present invention relates to methods and products for treating cancer by administration of specific fusion polypeptides or nucleic acids encoding such fusion polypeptides.

The present invention is in the field of oncology, and more particularly of cancer stem cells. It relates to a method for producing cancer stem cells based on overexpression of Δ133ρ536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms; a method for predicting the risk that treatment with a chemotherapeutic anti-cancer agent induces cancer stem cells in a subject suffering from cancer from a cancer sample of said subject, based on detection of an increase in Δ133ρ536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms following chemotherapeutic anti-cancer treatment; to therapeutic uses of a combination of chemotherapeutic anti-cancer agent and an agent reducing Δ133p536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms expression; and also to screening methods for anti-cancer stem cells agents.