The invention relates to novel therapeutic approaches to cancer treatment that exploits tumor suppressor functions of DKK3b by site-specific delivery of DKK3b. Novel therapeutics and methods for treating tumors and cancers utilizing DKK3b tumor suppressor functions are disclosed.

Provided is a drug target for idiopathic pulmonary fibrosis, and the use thereof. The drug target is AREG signaling in AT2 cells of the lung. The drug target can be used to screen drugs for treating and/or preventing pulmonary fibrosis, in particular, idiopathic pulmonary fibrosis (IPF) of animals and human beings.

A genetically modified rodent is provided that comprises a modified Acvr1 gene that comprises a conditional altered exon 7 encoding R258G in anti sense orientation, flanked by site-specific recombinase recognition sites, wherein the altered exon is inverted to sense orientation upon action of a recombinase, resulting in ectopic bone formation.

A genetically modified mouse is provided that comprises a conditional Acvr1 allele that comprises a mutated exon that, upon induction, converts to a mutant exon phenotype, wherein the mutant exon phenotype includes ectopic bone formation. Mice comprising a mutant Acvr1 exon 5 in antisense orientation, flanked by site-specific recombinase recognition sites, are provided, wherein the mice further comprise a site-specific recombinase that recognizes the site-specific recombinase recognitions sites, wherein the recombinase is induced upon exposure of the mouse to tamoxifen. Upon exposure to tamoxifen, the recombinase is expressed and acts on the RRS-flanked mutant exon 5 and places the mutant exon 5 in sense orientation and deletes the wild-type exon.

It was found that bacteria belonging to the genus Clostridium induce accumulation of regulatory T cells (Treg cells) in the colon. Moreover, the present inventors found that regulatory T cells (Treg cells) induced by from these bacteria suppressed proliferation of effector T-cells. From these findings, the present inventors found that the use of bacteria belonging to the genus Clostridium or a physiologically active substance derived therefrom made it possible to induce proliferation or accumulation of regulatory T cells (Treg cells), and further to suppress immune functions.

The invention provides for transgenic donor animals (e.g., pigs) whose cells, tissues and organs have a better long-term survival when transplanted into a human patient. The transgenic donor animal carries one or more human transgenes which is expressed only when the endogenous gene of the donor animal is knocked out shortly before a graft is harvested for transplantation. This “genetic switch” allows the donor animal to remain healthy during the majority of its lifetime, while still allowing expression of the human transgene for optimal transplant tolerance in a human recipient. The transgene may encode a cytokine receptor, an adhesion molecule, or a complement regulatory protein.

Method for controlling for the appearance of seizures in the mammalian brain comprising modifying the abundance of a specific miRNA-miR-211, for uses in preventing seizures and providing a model system to examine the effect of a drug or a treatment to seizures.

The invention is directed to compositions and methods for treating or reducing the likelihood of the development of epilepsy in an individual. The method comprises administering to the central nervous system of an individual in need of such treatment a therapeutically effective amount of an agent capable of increasing the expression and/or activity of miR-128.

The present disclosure is directed, in some embodiments, to compositions and methods for inducible modification of a cell genome.

The present invention features compositions of Tmem100 peptides and variants thereof, and their use in treating or preventing diseases or conditions.