Dihexa

Effects of an Angiotensin IV Analog on 3-Nitropropionic Acid-Induced Huntington's Disease-Like Symptoms in Rats.

Russell G Wells, Azzam F Azzam, Amie L Hiller +1 more

Huntington's disease (HD) is a neurodegenerative disorder characterized by motor, cognitive, and psychiatric dysfunction caused by a mutant huntingtin protein. Compromised metabolic activity resulting from systemic administration of the mitochondrial toxin, 3-nitropropionic acid (3-NP), is known to mimic the pathology of HD and induce HD-like symptoms in rats. N-hexanoic-Tyr-Ile-(6)-amino hexanoic amide (PNB-0408), also known as Dihexa, has been shown to have neuroprotective and procognitive properties in animal models of Alzheimer's and Parkinson's diseases. Given the mechanism of action and success in other neurodegenerative diseases, we felt it an appropriate compound to investigate further for HD.

The Brain Hepatocyte Growth Factor/c-Met Receptor System: A New Target for the Treatment of Alzheimer's Disease.

John W Wright, Joseph W Harding

Alzheimer's disease (AD) is a progressive neurodegenerative disease increasing in frequency as life expectancy of the world's population increases. There are an estimated 5 million diagnosed AD patients in the U.S. and 16 million worldwide with no adequate treatment presently available. New therapeutic approaches are needed to slow, and hopefully reverse, disease progression. This review summarizes available information regarding an overlooked therapeutic target that may offer a treatment to slow and hopefully halt AD, namely the hepatocyte growth factor (HGF)/c-Met receptor system. Activation of the c-Met receptor stimulates mitogenesis, motogenesis, morphogenesis, the ability to mediate stem cell differentiation and neurogenesis, and protects against tissue insults in a wide range of cells including neurons. This growth factor system has recently been shown to induce dendritic arborization and synaptogenesis when stimulated by a newly developed angiotensin-based analogue, N-hexanoic-Tyr-Ile-(6) amino hexanoic amide (Dihexa). This small molecule was derived from the pre-prototype molecule Nle1-angiotensin IV and has shown promise in facilitating the formation of new functional synaptic connections and augmenting memory consolidation in animal models of AD. Dihexa is a first-in-class compound that is orally active, penetrates the blood-brain barrier, and facilitates memory consolidation and retrieval. This angiotensin-based small molecule may be efficacious as a treatment for AD.

The procognitive and synaptogenic effects of angiotensin IV-derived peptides are dependent on activation of the hepatocyte growth factor/c-met system.

Caroline C Benoist, Leen H Kawas, Mingyan Zhu +6 more

A subset of angiotensin IV (AngIV)-related molecules are known to possess procognitive/antidementia properties and have been considered as templates for potential therapeutics. However, this potential has not been realized because of two factors: 1) a lack of blood-brain barrier-penetrant analogs, and 2) the absence of a validated mechanism of action. The pharmacokinetic barrier has recently been overcome with the synthesis of the orally active, blood-brain barrier-permeable analog N-hexanoic-tyrosine-isoleucine-(6) aminohexanoic amide (dihexa). Therefore, the goal of this study was to elucidate the mechanism that underlies dihexa's procognitive activity. Here, we demonstrate that dihexa binds with high affinity to hepatocyte growth factor (HGF) and both dihexa and its parent compound Norleucine 1-AngIV (Nle(1)-AngIV) induce c-Met phosphorylation in the presence of subthreshold concentrations of HGF and augment HGF-dependent cell scattering. Further, dihexa and Nle(1)-AngIV induce hippocampal spinogenesis and synaptogenesis similar to HGF itself. These actions were inhibited by an HGF antagonist and a short hairpin RNA directed at c-Met. Most importantly, the procognitive/antidementia capacity of orally delivered dihexa was blocked by an HGF antagonist delivered intracerebroventricularly as measured using the Morris water maze task of spatial learning.