Provided herein are antisense oligonucleotides (ASOs) specific for Rab13 and Net1, for example specific for a GA-rich region of the 3′-UTR. In some examples, the ASOs are modified. Methods of using these ASOs to reduce the migration of metastatic cancer cells are provided, for example as a use to treat metastatic cancer.

Described herein are methods and compositions for diagnosing, treating, or ameliorating symptoms of cancer, including MYC-driven and KRAS-driven cancer, with therapeutic HNB polypeptides. In some embodiments, disclosed herein are compositions comprising a synthetic nucleic acid sequence encoding a Plasmacytoma variant translocation 1_217 (PVT1_217) splice variant micropeptide, wherein the PVT1_217 splice variant micropeptide comprises at least 10 contiguous amino acids that are identical to a peptide encoded by a short open reading frame (shORF) located at the junction of Exon 3 and Exon 4 of human PVT 1_217.

Disclosed herein are 2 novel long non-coding RNAs (lncRNAs), TROLL-2 and TROLL-3. It is shown herein that lncRNAs TROLL-2 and TROLL-3, as well as their effector WDR26, are suitable targets for cancer therapies and can be used to make prognostic determinations about a cancer and determine if immune checkpoint inhibitors should be used to treat a cancer.

Among the various aspects of the present disclosure is the provision of methods for treating pathologic calcification or bone formation and methods of inhibiting KIF26B that include administering a therapeutically effective amount of a synthetic nucleic acid against KIF26B. Compositions comprising a small hairpin RNA (shRNA) against KIF26B are also provided.

The present disclosure provides nucleic acid compositions that incorporate one or more halouracil molecules. More specifically, the present disclosure reveals that the replacement of uracil nucleotides within a microRNA nucleotide sequence with a 5-halouracil increases the ability of the micro-RNA to inhibit cancer progression and tumorigenesis. As such, the present disclosure provides various nucleic acid (e.g., microRNA) compositions having 5-halouracil molecules incorporated in their nucleic acid sequences and methods for using the same. The present disclosure further provides pharmaceutical compositions comprising the modified nucleic acid compositions, and methods for treating cancers using the same.

A chimeric complex comprising a microRNA in combination with an aptamer for AXL receptor tyrosine kinase is provided. Use of the chimeric complex for targeted treatment of a tumor disease, in particular in a therapy affecting onset and/or progression of tumor metastasis is also provided.

Ovarian cancer, notably high-grade serous ovarian cancer (HGSC), the principal cause of death from gynecological malignancies in the world, has not significantly benefited from recent progress in cancer immunotherapy. While HGSC infiltration by lymphocytes correlates with superior survival, the nature of antigens that can elicit anti-HGSC immune responses is unknown. Novel tumor-specific antigens (TSAs) shared by a large proportion of ovarian tumors are described herein. Most of the TSAs (>80%) described herein derives from aberrantly expressed unmutated genomic sequences, such as intronic and intergenic sequences, which are not expressed in normal tissues. Nucleic acids, compositions, cells and vaccines derived from these TSAs are described. The use of the TSAs, nucleic acids, compositions, cells and vaccines for the treatment of ovarian cancer is also described.

The present invention relates to compositions and methods for targeting cancer-specific DNA sequences, such as copy number amplifications and other types of cancer-specific sequence variations, such as cancer-specific polymorphisms, insertions, or deletions. The present invention provides hereto sequence-specific DNA targeting agents targeting a sequence within the amplified DNA region or a sequence otherwise specific for a cancer cell compared to a non-cancer cell. The invention further relates to methods for treating cancer, comprising administering such sequence-specific DNA targeting agents. The invention further relates to methods for preparing sequence-specific DNA targeting agent, as well as screening methods using the DNA targeting agents.

Provided is a polydixylitol polymer gene transporter (VBXYP-P) containing vitamin B6 and a cancer stem cell-targeting peptide (TR-7) and a method for preparing the same. In addition, provided is a nucleic acid delivery complex in which a therapeutic nucleic acid is conjugated to the gene transporter, and a pharmaceutical composition for gene therapy containing the complex as an active ingredient. In addition, provided is the gene transporter, a gene delivery complex, and gene therapy using the same. It was observed that VBXYP-P of the present disclosure had a remarkably higher nucleic acid delivery rate to cancer stem cells than the pre-existing nucleic acid transporter, and when VBXYP-P was conjugated with DNA, the complex was almost free of cytotoxicity and permeated a blood brain barrier to exhibit remarkably high transformation efficiency for cancer stem cells inside a brain tumor.

Compositions and methods of use thereof for delivering nucleic acid cargo into cells are provided. The compositions typically include (a) a 3E10 monoclonal antibody or an antigen binding, cell-penetrating fragment thereof; a monovalent, divalent, or multivalent single chain variable fragment (scFv); or a diabody; or humanized form or variant thereof, and (b) a nucleic acid cargo including, for example, a nucleic acid encoding a polypeptide, a functional nucleic acid, a nucleic acid encoding a functional nucleic acid, or a combination thereof. Elements (a) and (b) are typically non-covalently linked to form a complex.