The invention described herein pertains to the diagnosis, imaging, and/or treatment of pathogenic cell populations. In particular, the invention described herein pertains to the diagnosis, imaging, and/or treatment of diseases caused by PSMA expressing cells, such as prostate cancer cells, using compounds capable of targeting PSMA expressing cells.

The invention described herein pertains to the diagnosis, imaging, and/or treatment of pathogenic cell populations. In particular, the invention described herein pertains to the diagnosis, imaging, and/or treatment of diseases caused by PSMA expressing cells, such as prostate cancer cells, using compounds capable of targeting PSMA expressing cells.

The invention described herein pertains to the diagnosis, imaging, and/or treatment of pathogenic cell populations. In particular, the invention described herein pertains to the diagnosis, imaging, and/or treatment of diseases caused by PSMA expressing cells, such as prostate cancer cells, using compounds capable of targeting PSMA expressing cells.

Method for identifying a modulator of Sirt6, PfSir2a, or Sirt7 deacylase activity, wherein a fatty-acylated substrate containing an acyl-lysine moiety and an indicator moiety is contacted with Sirt6, PfSir2a, or Sirt7 in the presence of a candidate compound under conditions for Sirt6, PfSir2a, or Sirt7 to deacylate the substrate, wherein the acyl is a hydrophobic fatty acyl group containing a hydrocarbon group having at least three carbon atoms connected by carbon-carbon bonds; contacting the deacylated substrate with a cleavage agent that cleaves the linkage between the lysine and indicator moiety to generate a detectable signal; and correlating a quantified Sirt6, PfSir2a, or Sirt7 deacylase activity therefrom. Modulating compounds of Sirt6, PfSir2a, or Sirt7 deacylase activity are also described, as are pharmaceutical compositions thereof, methods of treatment by administration of the modulating compounds, and kits for practicing the method.

Provided herein are compounds of Formula (I) and pharmaceutical compositions thereof, which may be useful as MALT1 inhibitors. Also provided are for the treatment of proliferative disorders (e.g., cancer (e.g., non-Hodgkin's lymphoma, diffuse large B-cell lymphoma, MALT, lymphoma), benign neoplasm, a disease associated with angiogenesis, an autoimmune disease, an inflammatory disease, an autoinflammatory disease) by administering a compound of Formula (I).

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Heme released as a result of sustained injury leads to toxicity and triggers an inflammatory response and tissue damage. Heme oxygenase, an enzyme, recognizes, binds free heme and breaks it down as a part of the anti-inflammatory response. The present disclosure relates to a class of peptide amphiphiles that mimic the heme oxygenase function, and have shown that the designed peptide is able to bind and break down heme thus validating its potential as an anti-inflammatory agent that promotes tissue repair and useful in wound healing. The disclosed peptide sequence design provides control of amphiphile peptides' supramolecular structure and function. Applicants have shown that the incorporated heme molecule can transport CO, which suggests that the peptides can also transport NO, O.sub.2 and reactive oxygens, the molecules which are responsible for vasodilation, neurotransmission and cell death. Besides heme oxygenase function, it is believed that the designed peptides can recognize normal tissue adjacent to the damaged area and the peptide can self-assemble into fibers that promote healthy cell growth.

The disclosure provides methods of preventing or treating heart failure in a mammalian subject. The methods comprise administering to the subject an effective amount of an aromatic-cationic peptide to subjects in need thereof.

The disclosure provides methods of preventing or treating Friedreich's ataxia in a mammalian subject, reducing risk factors, signs and/or symptoms associated with Friedreich's ataxia, and/or reducing the likelihood or severity of Friedreich's ataxia. The methods comprise administering to the subject an effective amount of an aromatic-cationic peptide to e.g., reduce oxidative stress, increase mitochondrial metabolism, or a combination thereof.

The present disclosure relates to prostate specific membrane antigen (PSMA) targeted compounds conjugated to near-infra red (NIR) dyes and methods for their therapeutic and diagnostic use. More specifically, this disclosure provides compounds and methods for diagnosing and treating diseases associated with cells and/or vasculature expressing prostate specific membrane antigen (PSMA), such as prostate cancer and related diseases. The disclosure further describes methods and compositions for making and using the compounds, methods incorporating the compounds, and kits incorporating the compounds.

The invention provides methods of preventing or treating insulin resistance in a mammalian subject. The methods comprise administering to the subject an effective amount of an aromatic-cationic peptide having at least one net positive charge; a minimum of four amino acids; a maximum of about twenty amino acids; a relationship between the minimum number of net positive charges (p.sub.m) and the total number of amino acid residues (r) wherein 3p.sub.m is the largest number that is less than or equal to r+1; and a relationship between the minimum number of aromatic groups (a) and the total number of net positive charges (p.sub.t) wherein 2a is the largest number that is less than or equal to p.sub.t+1, except that when a is 1, p.sub.t may also be 1.