Stem cell, Granulocyte-Colony Stimulating Factor and/or Dihexa to promote limb function recovery in a rat sciatic nerve damage-repair model: Experimental animal studies.

Background: Optimizing nerve regeneration and re-innervation of target muscle/s is the key for improved functional recovery following peripheral nerve damage. We investigated whether administration of mesenchymal stem cell (MSC), Granulocyte-Colony Stimulating Factor (G-CSF) and/or Dihexa can improve recovery of limb function following peripheral nerve damage in rat sciatic nerve transection-repair model.

Materials And Methods: There were 10 experimental groups (n = 6-8 rats/group).

Comparative characterization of the HGF/Met and MSP/Ron systems in primary pancreatic adenocarcinoma.

Pancreatic cancer is an aggressive disease with a poor prognosis for which current standard chemotherapeutic treatments offer little survival benefit. Receptor tyrosine kinases (RTK)s have garnered interest as therapeutic targets to augment or replace standard chemotherapeutic treatments because of their ability to promote cell growth, migration, and survival in various cancers. Met and Ron, which are homologous RTKs activated by the ligands hepatocyte growth factor (HGF) and macrophage stimulating protein (MSP), respectively, are over-activated and display synergistic malignant effects in several cancers.

Hepatocyte Growth Factor and Macrophage-stimulating Protein "Hinge" Analogs to Treat Pancreatic Cancer.

Pancreatic cancer (PC) ranks twelfth in frequency of diagnosis but is the fourth leading cause of cancer related deaths with a 5 year survival rate of less than 7 percent. This poor prognosis occurs because the early stages of PC are often asymptomatic. Over-expression of several growth factors, most notably vascular endothelial growth factor (VEGF), has been implicated in PC resulting in dysfunctional signal transduction pathways and the facilitation of tumor growth, invasion and metastasis.

Contributions by the Brain Renin-Angiotensin System to Memory, Cognition, and Alzheimer's Disease.

Alzheimer's disease (AD) is a neurodegenerative disease characterized by progressive neuron losses in memory-associated brain structures that rob patients of their dignity and quality of life. Five drugs have been approved by the FDA to treat AD but none modify or significantly slow disease progression. New therapies are needed to delay the course of this disease with the ultimate goal of preventing neuron losses and preserving memory functioning.

Norleual, a hepatocyte growth factor and macrophage stimulating protein dual antagonist, increases pancreatic cancer sensitivity to gemcitabine.

Pancreatic cancer is a leading cause of cancer deaths in the USA and is characterized by an exceptionally poor long-term survival rate compared with other major cancers. The hepatocyte growth factor (HGF) and macrophage stimulating protein (MSP) growth factor systems are frequently over-activated in pancreatic cancer and significantly contribute to cancer progression, metastasis, and chemotherapeutic resistance. Small molecules homologous to the 'hinge' region of HGF, which participates in its dimerization and activation, had been developed and shown to bind HGF with high affinity, antagonize HGF's actions, and possess anticancer activity.

Analogs of the hepatocyte growth factor and macrophage-stimulating protein hinge regions act as Met and Ron dual inhibitors in pancreatic cancer cells.

Pancreatic cancer is among the leading causes of cancer death in the USA, with limited effective treatment options. A major contributor toward the formation and persistence of pancreatic cancer is the dysregulation of the hepatocyte growth factor (HGF)/Met (HGF receptor) and the macrophage-stimulating protein (MSP)/Ron (MSP receptor) systems. These systems normally mediate a variety of cellular behaviors including proliferation, survival, and migration, but are often overactivated in pancreatic cancer and contribute toward cancer progression.

Hepatocyte growth factor mimetic protects lateral line hair cells from aminoglycoside exposure.

Loss of sensory hair cells from exposure to certain licit drugs (e.g., aminoglycoside antibiotics, platinum-based chemotherapy agents) can result in permanent hearing loss.

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

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.

The development of small molecule angiotensin IV analogs to treat Alzheimer's and Parkinson's diseases.

Alzheimer's (AD) and Parkinson's (PD) diseases are neurodegenerative diseases presently without effective drug treatments. AD is characterized by general cognitive impairment, difficulties with memory consolidation and retrieval, and with advanced stages episodes of agitation and anger. AD is increasing in frequency as life expectancy increases.

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

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).

A Role for the Brain RAS in Alzheimer's and Parkinson's Diseases.

The brain renin-angiotensin system (RAS) has available the necessary functional components to produce the active ligands angiotensins II (AngII), angiotensin III, angiotensins (IV), angiotensin (1-7), and angiotensin (3-7). These ligands interact with several receptor proteins including AT1, AT2, AT4, and Mas distributed within the central and peripheral nervous systems as well as local RASs in several organs. This review first describes the enzymatic pathways in place to synthesize these ligands and the binding characteristics of these angiotensin receptor subtypes.

A role for matrix metalloproteinases in nicotine-induced conditioned place preference and relapse in adolescent female rats.

Reconfiguration of extracellular matrix proteins appears to be necessary for the synaptic plasticity that underlies memory consolidation. The primary candidates involved in controlling this process are a family of endopeptidases called matrix metalloproteinases (MMPs); however, the potential role of MMPs in nicotine addiction-related memories has not been adequately tested. Present results indicate transient changes in hippocampal MMP-2, -3, and -9 expression following context dependent learning of nicotine-induced conditioned place preference (CPP).

Importance of the brain Angiotensin system in Parkinson's disease.

Parkinson's disease (PD) has become a major health problem affecting 1.5% of the world's population over 65 years of age. As life expectancy has increased so has the occurrence of PD.

Evaluation of metabolically stabilized angiotensin IV analogs as procognitive/antidementia agents.

Angiotensin IV (AngIV: VYIHPF)-related peptides have long been recognized as procognitive agents with potential as antidementia therapeutics. Their development as useful therapeutics, however, has been limited by physiochemical properties that make them susceptible to metabolic degradation and impermeable to gut and blood-brain barriers. A previous study demonstrated that the core structural information required to impart the procognitive activity of the AngIV analog, norleucine(1)-angiotensin IV, resides in its three N-terminal amino acids, Nle-Tyr-Ile.

Nanoscale mapping of the Met receptor on hippocampal neurons by AFM and confocal microscopy.

Unlabelled: Hepatocyte growth factor (HGF), a neurotrophic protein, acting through its tyrosine kinase receptor, Met, facilitates learning and synaptic plasticity. In concert with the role of the HGF/Met system in synaptic plasticity, we demonstrate that Met is localized to brain regions which undergo extensive synaptic remodeling. We demonstrate that Met activation results in an increase in dendritic spine density and functional synapses.

Focus on Brain Angiotensin III and Aminopeptidase A in the Control of Hypertension.

The classic renin-angiotensin system (RAS) was initially described as a hormone system designed to mediate cardiovascular and body water regulation. The discovery of a brain RAS composed of the necessary functional components (angiotensinogen, peptidases, angiotensins, and specific receptor proteins) independent of the peripheral system significantly expanded the possible physiological and pharmacological functions of this system. This paper first describes the enzymatic pathways resulting in active angiotensin ligands and their interaction with AT(1), AT(2), and mas receptor subtypes.

The brain renin-angiotensin system: a diversity of functions and implications for CNS diseases.

The classic renin-angiotensin system (RAS) was initially described as a hormone system designed to mediate cardiovascular and body water regulation, with angiotensin II as its major effector. The discovery of an independent local brain RAS composed of the necessary functional components (angiotensinogen, peptidases, angiotensins, and specific receptor proteins) significantly expanded the possible physiological and pharmacological functions of this system. This review first describes the enzymatic pathways resulting in active angiotensin ligands and their interaction with AT(1), AT(2), and AT(4) receptor subtypes.

The Hepatocyte Growth Factor/c-Met Antagonist, Divalinal-Angiotensin IV, Blocks the Acquisition of Methamphetamine Dependent Conditioned Place Preference in Rats.

The use of methamphetamine (MA) is increasing in the U.S. and elsewhere around the world.

Development of angiotensin IV analogs as hepatocyte growth factor/Met modifiers.

The 6-AH family [D-Nle-X-Ile-NH-(CH(2))(5)-CONH(2); where X = various amino acids] of angiotensin IV (Ang IV) analogs binds directly to hepatocyte growth factor (HGF) and inhibit HGF's ability to form functional dimers. The metabolically stabilized 6-AH family member, D-Nle-Tyr-Ile-NH-(CH(2))(5)-CONH(2,) had a t(1/2) in blood of 80 min compared with the parent compound norleual [Nle-Tyr-Leu-Ψ-(CH(2)-NH(2))(3-4)-His-Pro-Phe], which had a t(1/2) in blood of <5 min. 6-AH family members were found to act as mimics of the dimerization domain of HGF (hinge region) and inhibited the interaction of an HGF molecule with a (3)H-hinge region peptide resulting in an attenuated capacity of HGF to activate its receptor Met.

Mimics of the dimerization domain of hepatocyte growth factor exhibit anti-Met and anticancer activity.

The angiotensin IV analog norleual [Nle-Tyr-Leu-ψ-(CH(2)-NH(2))-Leu-His-Pro-Phe] has been shown recently to act as a hepatocyte growth factor (HGF)/Met antagonist capable of blocking the binding of HGF to the Met receptor, inhibiting HGF-dependent activation of Met, and attenuating HGF-dependent cellular activities. In addition, norleual exhibited marked anticancer activity. Homology between norleual and the dimerization domain (hinge region) of HGF led to the hypothesis that norleual acts by interfering with HGF dimerization/multimerization and functions as a dominant-negative hinge region mimic.

Brain renin-angiotensin--a new look at an old system.

The classic renin-angiotensin system (RAS) is described as a circulating hormone system focused on cardiovascular and body water regulation, with angiotensin II as its major effector. Detlef Ganten's discovery some years ago of an independent local brain RAS composed of the necessary functional components (angiotensinogen, peptidases, angiotensins and specific receptor proteins) significantly expanded the possible physiological and pharmacological functions of this system. This review first describes the enzymatic pathways resulting in active angiotensin ligands and their interaction with AT(1), AT(2) and AT(4) receptor proteins.

Facilitation of hippocampal synaptogenesis and spatial memory by C-terminal truncated Nle1-angiotensin IV analogs.

Angiotensin IV (AngIV; Val(1)-Tyr(2)-Ile(3)-His(4)-Pro(5)-Phe(6))-related peptides have emerged as potential antidementia agents. However, their development as practical therapeutic agents has been impeded by a combination of metabolic instability, poor blood-brain barrier permeability, and an incomplete understanding of their mechanism of action. This study establishes the core structure contained within norleucine(1)-angiotensin IV (Nle(1)-AngIV) that is required for its procognitive activity.

Nicotine-induced conditioned place preference in adolescent rats.

A number of clinical reports have noted that women are more vulnerable to tobacco abuse than men, and adolescent females are especially vulnerable to nicotine addiction. Conditioned place preference (CPP) is a widely used technique for determining the rewarding effects of drugs with abuse potential in animal models. Several studies have reported that nicotine was ineffective in eliciting CPP in rats; while others have observed conditioned place aversion (CPA) rather than preference for nicotine.

Angiotensin II-mediated microvascular thrombosis.

Hypertension is associated with an increased risk of thrombosis that appears to involve an interaction between the renin-angiotensin system and hemostasis. In this study we determined whether angiotensin II-mediated thrombosis occurs in arterioles and/or venules and assessed the involvement of type 1 (AT₁), type 2 (AT₂), and type 4 (AT₄) angiotensin II receptors, as well as receptors for endothelin 1 and bradykinin 1 and 2 in angiotensin II-enhanced microvascular thrombosis. Thrombus development in mouse cremaster microvessels was quantified after light/dye injury using the time of onset of the thrombus and time to blood flow cessation.

Contributions of matrix metalloproteinases to neural plasticity, habituation, associative learning and drug addiction.

The premise of this paper is that increased expression of matrix metalloproteinases (MMPs) permits the reconfiguration of synaptic connections (i.e., neural plasticity) by degrading cell adhesion molecules (CAMs) designed to provide stability to those extracellular matrix (ECM) proteins that form scaffolding supporting neurons and glia.