Developmental expression of nerve growth factor in the eye of rats affected by inherited retinopathy: correlative aspects with retinal structural degeneration

We have previously reported that exogenous administration of nerve growth factor (NGF) in C3H/HeJ mouse strain affected by retinitis pigmentosa (RP) delayed retinal degeneration, suggesting that NGF may be implicated in retinal development. Whether NGF is present in the developing eye was not investigated. To address this question we have used Royal College of Surgeons (RCS) rats, characterised by photoreceptor loss during postnatal life. The results of these studies showed that while the thickness of the outer nuclear layer (ONL) of RCS is comparable to controls, while the amount of NGF expressed in the eye of this mutant rat is significant lower, as compared to control eye. This observation suggests that the lower presence of NGF in the eye of RCS rats during early postnatal life might be one critical key factor implicated in RP. The results of these studies will be presented and discussed.     

Nerve growth factor in serum of children with systemic lupus erythematosus is correlated with disease activity

Nerve growth factor (NGF) is a neurotrophic factor, which is expressed both in the nervous system and in peripheral organs. NGF is also present in mast cells, and in B- and T-lymphocytes, and may play a role in the immune cell development and differentiation. Various cytokines have been shown to affect NGF expression, and NGF is elevated in inflammation and in some autoimmune diseases. Here we have studied NGF concentrations in serum of pediatric patients with systemic lupus erythematosus (SLE) using a two-site enzyme-linked immunosorbent assay (ELISA). We have further correlated the levels of NGF to the inflammatory state of the disease. The mean value of serum NGF in SLE patients was significantly increased compared with controls (3346 vs 627pg/ml). There was a correlation between the activity of SLE and the levels of NGF. The results show that NGF is elevated in childhood SLE and that the levels are correlated with disease activity. The present results suggest that NGF may play a role in the pathogenesis of SLE and may have a prognostic value in evaluating the course of the disease and in outlining the medication.     

Activity dependent regulation of BDNF and NGF mRNAs in the rat hippocampus is mediated by non-NMDA glutamate receptors.

The mRNAs of nerve growth factor (NGF) and brain derived neurotrophic factor (BDNF) exhibit a similar, though not identical, regional and cellular distribution in the rodent brain. In situ hybridization experiments have shown that BDNF, like NGF, is predominantly expressed by neurons. The neuronal localization of the mRNAs of these two neurotrophic molecules raised the question as to whether neuronal activity might be involved in the regulation of their synthesis. After we had demonstrated that depolarization with high potassium (50 mM) resulted in an increase in the levels of both BDNF and NGF mRNAs in cultures of hippocampal neurons, we investigated the effect of a large number of transmitter substances. Kainic acid, a glutamate receptor agonist, was by far the most effective in increasing BDNF and NGF mRNA levels in the neurons, but neither N-methyl-D-aspartic acid (NMDA) nor inhibitors of the NMDA glutamate receptors had any effect. However, the kainic acid mediated increase was blocked by antagonists of non-NMDA receptors. Kainic acid also elevated levels of BDNF and NGF mRNAs in rat hippocampus and cortex in vivo. These results suggest that the synthesis of these two neurotrophic factors in the brain is regulated by neuronal activity via non-NMDA glutamate receptors.     

Maternal Deprivation Induces Depressive-like Behaviour and Alters Neurotrophin Levels in the Rat Brain

The present study was aimed to evaluate the behavioral and molecular effects of maternal deprivation in adult rats. To this aim, male rats deprived and non-deprived were assessed in the forced swimming and open-field tests in adult phase. In addition adrenocorticotrophin hormone (ACTH) levels was assessed in serum and brain-derived-neurotrophic factor (BDNF), neurotrophin-3 (NT-3) and nerve growth factor (NGF) protein levels were assessed in prefrontal cortex, hippocampus and amygdala. We observed that maternal deprivation increased immobility time, and decreased climbing time, without affecting locomotor activity. ACTH circulating levels were increased in maternal deprived rats. Additionally, BDNF protein levels were reduced in the amygdala and NT-3 and NGF were reduced in both hippocampus and amygdala in maternal deprived rats, compared to control group. In conclusion, our results support the idea that behavioral, ACTH circulating levels and neurotrophins levels altered in maternal deprivation model could contribute to stress-related diseases, such as depression.     

The metabotrophic NGF and BDNF: an emerging concept

The field of neurotrophins, particularly, nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF), has witnessed a number of breakthroughs in recent years. There is evidence now that NGF and BDNF mediate multiple biological phenomena, ranging from the Rita Levi Montalcini's neurotrophic through immunotrophic to epitheliotrophic and nociceptive effects. In 2003 we, for the first time, enriched the "NGFome" with one more expression presented in our concept of NGF metabotrophicity, also that of BDNF. This envisages that these two factors may operate as metabotrophins, that is, involved in the maintenance of cardiometabolic homeostasis (glucose and lipid metabolism as well as energy balance, cardioprotection, and wound healing). Recent results also demonstrated that the circulating and/or tissue levels of NGF and BDNF are altered in cardiometabolic diseases (atherosclerosis, obesity, type 2 diabetes, metabolic syndrome, and type 3 diabetes). Altogether, a hypothesis of metabotrophic deficit due to the reduction of NGF/BDNF availability and/or utilization was raised, and implicated in the pathogenesis of cardiometabolic diseases. This may cultivate a novel pathogenic and therapeutic thinking for these diseases.     

Developmental regulation of nerve growth factor and its receptor in the rat caudate-putamen

In prior studies, nerve growth factor (NGF) administration induced a robust, selective increase in the neurochemical differentiation of caudate-putamen cholinergic neurons. In this study, expression of NGF and its receptor was examined to determine whether endogenous NGF might serve as a neurotrophic factor for these neurons. The temporal pattern of NGF gene expression and the levels of NGF mRNA and protein were distinct from those found in other brain regions. NGF and high-affinity NGF binding were present during cholinergic neurochemical differentiation and persisted into adult-hood. An increase in NGF binding during the third postnatal week was correlated with increasing choline acetyltransferase activity. The data are consistent with a role for endogenous NGF in the development and, possibly, the maintenance of caudate-putamen cholinergic neurons.     

Serum cytokine levels as putative prognostic markers in the progression of chronic HCV hepatitis to cirrhosis

Hepatitis C virus (HCV) infection can present as an acute manifestation, and can lead to severe complications such as chronic hepatitis, cirrhosis, and hepatocellular carcinoma (HCC). It represents a global health problem because there is no vaccine currently available. Cytokines play an important role in viral clearance, infection control, inflammation, regeneration and fibrosis, and also are implicated in the pathological processes occurring in the liver during viral infection. Immunological markers of chronic HCV hepatitis progression as compared to cirrhosis and HCC would be extremely useful, particularly for distinguishing between the molecules produced during HCV-induced chronic inflammation and those secreted during cirrhosis and HCC. In this work, we evaluated the serum levels of several cytokines, chemokines and growth factors in 30 patients affected by chronic HCV (HC), 30 patients affected by HCV-related cirrhosis (LC) and 20 healthy, control subjects. We used a multiplex biometric ELISA-based immunoassay in order to identify molecules that might be useful for monitoring the progression of HCV to liver cirrhosis and, possibly, to cancer. Our results show that some pro-inflammatory molecules are significantly up-regulated, and play a role as immunological markers in the intermediate steps towards liver cancer, and that hepatocyte growth factor (HGF) is a specific marker of liver cirrhosis. Finally, these data will be used to define a cytokinome profile, which might prove useful for studies involving the transition of chronic inflammation to neoplastic processes.     

Poster Sessions CP08: Signal Transduction. Synergistic modification of inducible and neuronal NOS expression by NGF and TNFα: relevance to CNS aging

Inducible nitric oxide synthase (iNOS) and high levels of nitric oxide (NO) are present in the CNS of patients with Alzheimer's disease (AD), resulting in both DNA and protein oxidative damage. While iNOS can result in damaging levels of NO, the neuronal constitutive form of NOS (nNOS) has a role in cell signalling and can prevent neuronal apoptosis. iNOS can be induced by inflammatory cytokines such as tumor necrosis alpha (TNFα). TNFα is found in the CNS of AD, where neurons dependent on neurotrophins such as nerve growth factor (NGF) are particularly affected. Here we determined the effect of TNFα on the three NOS isoforms (endothelial, neuronal and inducible) in NGF‐responsive PC12 cells. We found that while TNFα and NGF alone were uneffective, their simultaneous addition resulted in iNOS induction and the release of NO. In addition TNFα and NGF synergistically reduced nNOS, independently of the presence of high NO levels promoted by iNOS, while no effect was observed on eNOS. A similar pattern was observed in the brain of aged human subjects as compared to young individuals. Our results suggest that synergistic iNOS induction by TNFα and NGF may occur in selective populations of NGF‐responsive neurons. Oxidative damage in such neurons could then occur in the presence of elevated levels of TNFα, that potentially occur in the brain of AD patients. This damaging scenario may further be aggravated by a concomitant reduction of nNOS, brought about by similar synergistic effects between TNFα and NGF. Acknowledgements: Supported by NIA (AG13945) and Sealy Res. Dev. grants to GT.     

Acute and Chronic Administration of the Branched-Chain Amino Acids Decreases Nerve Growth Factor in Rat Hippocampus

Maple syrup urine disease (MSUD) is a neurometabolic disorder caused by deficiency of the activity of the mitochondrial enzyme complex branched-chain α-keto acid dehydrogenase leading to accumulation of the branched-chain amino acids (BCAA) and their corresponding branched-chain α-keto acids. In this study, we examined the effects of acute and chronic administration of BCAA on protein levels and mRNA expression of nerve growth factor (NGF) considering that patients with MSUD present neurological dysfunction and cognitive impairment. Considering previous observations, it is suggested that oxidative stress may be involved in the pathophysiology of the neurological dysfunction of MSUD. We also investigated the influence of antioxidant treatment (N-acetylcysteine and deferoxamine) in order to verify the influence of oxidative stress in the modulation of NGF levels. Our results demonstrated decreased protein levels of NGF in the hippocampus after acute and chronic administration of BCAA. In addition, we showed a significant decrease in the expression of ngf in the hippocampus only following acute administration in 10-day-old rats. Interestingly, antioxidant treatment was able to prevent the decrease in NGF levels by increasing ngf expression. In conclusion, the results suggest that BCAA is involved in the regulation of NGF in the developing rat. Thus, it is possible that alteration of neurotrophin levels during brain maturation could be of pivotal importance in the impairment of cognition provoked by BCAA. Moreover, the decrease in NGF levels was prevented by antioxidant treatment, reinforcing that the hypothesis of oxidative stress can be an important pathophysiological mechanism underlying the brain damage observed in MSUD.     

A gastrin-releasing peptide receptor antagonist blocks D-amphetamine-induced hyperlocomotion and increases hippocampal NGF and BDNF levels in rats

The gastrin-releasing peptide receptor (GRPR) has emerged as a novel molecular target in neurological and psychiatric disorders, and previous animal studies suggest that GRPR antagonists might display cognitive-enhancing and antipsychotic properties. Hyperlocomotion produced by administration of D-amphetamine (D-AMPH) to rats has been put forward as a model of the manic phase of bipolar disorder (BD). In the present study, we examined the effects of a single systemic administration of the GRPR antagonist [D-Tpi(6), Leu(13) psi(CH(2)NH)-Leu(14)] bombesin (6-14) (RC-3095) on hyperlocomotion induced by a single systemic injection of D-AMPH in male rats. We also evaluated the levels of brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF) in the hippocampus of rats treated with D-AMPH and RC-3095. Administration of RC-3095 at any of the doses used blocked D-AMPH-induced hyperlocomotion. Specific doses of RC-3095 increased the levels of NGF and BDNF in the dorsal hippocampus. Administration of D-AMPH did not affect NGF or BDNF levels by itself, but blocked the RC-3095 effects. The results suggest that GRPR antagonists might display anti-manic activity.     

Nerve growth factor modulates the expression and secretion of beta-amyloid precursor protein through different mechanisms in PC12 cells

The beta-amyloid protein, component of the senile plaques found in Alzheimer brains is proteolytically derived from the beta-amyloid precursor protein (APP), a larger membrane-associated protein that is expressed in both neural and non-neural cells. Overexpression of APP might be one of the mechanisms that more directly contributes to the development of Alzheimer's disease. The APP gene expression is regulated by a number of cellular mediators including nerve growth factor (NGF) and other ligands of tyrosine kinase receptors. We have previously described that NGF increases APP mRNA levels in PC12 cells. However, the molecular mechanisms and the precise signalling pathways that mediate its regulation are not yet well understood. In the present study we present evidence that NGF, and to a lesser extent fibroblast growth factor and epidermal growth factor, stimulate APP promoter activity in PC12 cells. This induction is mediated by DNA sequences located between the nucleotides - 307 and - 15, and involves activation of the Ras-MAP kinase signalling pathway. In contrast, we have also found that NGF-induced secretion of soluble fragments of APP into the culture medium is mediated by a Ras independent mechanism.     

Studies on the involvement of histamine in the hypothalamic-pituitary-adrenal axis activation induced by nerve growth factor

Nerve growth factor (NGF) has been shown to stimulate the hypothalamic-pituitary-adrenocortical (HPA) axis. Since NGF induces the release of histamine from mast cells and in consideration of the fact that histamine is an HPA axis activator, we investigated whether NGF adrenocortical stimulation is mediated by histamine. To accomplish with it, the H1 histamine antagonist promethazine and the H2 antagonists metiamide and zolantidine were used in freely-moving cannulated rats. The increase in plasma corticosterone concentration induced by histamine administration was prevented completely by promethazine pretreatment but was unaffected by the H2 antagonists. Neither H1 nor H2 antagonists affected the adrenocortical stimulation induced by NGF administration. Moreover, since mast cells are reportedly present in the rat adrenal gland and the locally released histamine mediates the release of adrenaline which, in turn, stimulates glucocorticoid synthesis and secretion, we studied the effect of NGF on basal and ACTH-stimulated corticosterone release from in vitro isolated quartered adrenal glands and collagenase-dispersed adrenal cells. The results from these in vitro experiments have indicated that NGF modified neither spontaneous nor stimulated corticosterone release. Altogether these observations suggest that endogenous histamine is unlikely to be involved in HPA axis stimulation by NGF and reinforce the previously proposed concept of an active participation of NGF in the control of adrenocortical activity.     

NGF in CNS: Experimental data and clinical implications

The presence of β-nerve growth factor (NGF) and its cell surface receptor (NGF-R) in the brain has been well established by a variety of experimental techniques in recent years. In particular, the molecular cloning of NGF and NGF-R as well as the development of sensitive two-site ELISA techniques for determining the levels of NGF and antibodies to NGF-R suitable for immunohistochemistry have led to rapid accumulation of data in this field from many laboratories. A main finding is the function of NGF in the cholinergic neurons of the basal forebrain, expressing NGF receptors and responding to the factor by increased activity of choline acetyltransferase, and the production of NGF in cortical areas and hippocampus comprising terminal areas for the cholinergic projections from the basal forebrain. In addition, findings suggest that additional neurons in the brain and spinal cord may utilize NGF, notably during development and possibly also after lesion of the adult CNS. Moreover, observations indicate that endogenous levels of NGF are lowered in the aged rat brain concomitant with losses of NGF-dependent neurons in the basal forebrain. The involvement of NGF in human neurodegenerative diseases is not established but the application of NGF to degenerating cholinergic neurons in Alzheimer patients may prove useful. A promising approach to achieve this goal is the production of biologically active, recombinant NGF.     

Sympathetic axons surround nerve growth factor-immunoreactive trigeminal neurons: Observations in mice overexpressing nerve growth factor

It has been postulated that the aberrant projection of sympathetic axons to individual primary sensory neurons may provide the morphological basis for pain-related behaviors in rat models of chronic pain syndrome. Since nerve growth factor (NGF) can elicit the collateral sprouting of noradrenergic sympathetic terminals, it might be predicted that NGF plays a role in mediating the sprouting of sympathetic axons into sensory ganglia. Using a line of transgenic mice overexpressing NGF among glial cells, it was first found that trigeminal ganglia from adult transgenic mice possessed significantly higher levels of NGF protein in comparison to age-matched wild-type mice; as well, detectable levels of NGF mRNA transgene expression were present in both the ganglia and brain stem. Within the trigeminal ganglia, a small proportion of the sensory neuronal population stained immunohistochemically for NGF; a higher percentage of NGF-positive neurons was evident in transgenic mice. New sympathetic axons extended into the trigeminal ganglia of transgenic mice only and formed perineuronal plexuses surrounding only those neurons immunostained for NGF. In addition, such plexuses were accompanied by glial processes from nonmyelinating Schwann cells. From these data, we propose that accumulation of glial-derived NGF by adult sensory neurons and its putative release into the ganglionic environment induce the directional growth of sympathetic axons to the source of NGF, namely, the cell bodies of primary sensory neurons. © 1998 John Wiley & Sons, Inc. J Neurobiol 34: 347–360, 1998     

Food Availability and Maternal Immunization Affect Transfer and Persistence of Maternal Antibodies in Nestling Pigeons

The ability of mothers to transfer antibodies (Abs) to their young and the temporal persistence of maternal Abs in offspring constitute important life-history traits that can impact the evolution of host-parasite interactions. Here, we examined the effects of food availability and parental immunization on the transfer and persistence of maternal antibodies in nestling pigeons (Columba livia). This species can transmit maternal Abs to offspring before hatching through the egg yolk and potentially after hatching through crop milk. However, the role of this postnatal substance in immunity remains elusive. We used a full cross-fostering design to disentangle the effects of food limitation and parental immunization both before and after hatching on the levels and persistence of maternal Abs in chicks. Parents were immunized via injection with keyhole limpet hemocyanin antigens. Using an immunoassay that specifically detected the IgY antibodies that are known to be transmitted via the yolk, we found that the levels of anti-KLH Abs in newly hatched chicks were positively correlated with the levels of anti-KLH Abs in the blood of their biological mothers. However, this correlation was not present between chicks and their foster parents, suggesting limited IgY transfer via crop milk to the chick’s bloodstream. Interestingly, biological mothers subjected to food limitation during egg laying transferred significantly fewer specific maternal Abs, which suggests that the transfer of antibodies might be costly for them. In addition, the persistence of maternal Abs in a chick’s bloodstream was not affected by food limitation or the foster parents’ anti-KLH Ab levels; it was only affected by the initial level of maternal anti-KLH Abs that were present in newly hatched chicks. These results suggest that the maternal transfer of Abs could be costly but that their persistence in an offspring’s bloodstream may not necessarily be affected by environmental conditions.     

Regulation of IGF-1 but not TGF-β1 by NGF in the smooth muscle of the inflamed urinary bladder

Intraperitoneal injection of cyclophosphamide (CYP) causes hemorrhagic cystitis with excess growth of muscular layer leading to bladder hypertrophy; this could be attributable to changes in the expression profiles of growth factors in the inflamed urinary bladder. The growth factors characterized in the current study include nerve growth factor (NGF), insulin-like growth factor (IGF)-1, and transforming growth factor (TGF)-β1. We found that following CYP injection for 8 h and 48 h, the mRNA levels of all three factors were increased in the inflamed bladder when compared to control. The level of NGF mRNA was mainly increased in the urothelium layer while the levels of IGF-1 mRNA and TGF-β1 mRNA were increased in the smooth muscle layer. The level of NGF high affinity receptor TrkA mRNA was also increased in both the urothelium and the smooth muscle layers during bladder inflammation. When we blocked NGF action with NGF neutralizing antibody in vivo, we found that the up-regulation of IGF-1 in the inflamed bladder was reversed while the up-regulation of TGF-β1 was not affected by NGF neutralization. The effect of NGF on regulating IGF-1 expression was further confirmed in bladder smooth muscle culture showing that exogenous NGF increased the mRNA level of IGF-1 after 30 min to 1 h stimulation. These results suggested that bladder inflammation induced region-specific changes in the expression profiles of NGF, IGF-1 and TGF-β1. The up-regulation of NGF in the urothelium may have a role in affecting bladder smooth muscle cell physiology by regulating IGF-1 expression.     

Prolactin-dependent activation of ERK and TYR-phosphorylation of cortactin in postmitotic neurons

Inducible nitric oxide synthase (iNOS) and high levels of nitric oxide (NO) are present in the CNS of patients with Alzheimer's disease (AD), resulting in both DNA and protein oxidative damage. While iNOS can result in damaging levels of NO, the neuronal constitutive form of NOS (nNOS) has a role in cell signalling and can prevent neuronal apoptosis. iNOS can be induced by inflammatory cytokines such as tumor necrosis alpha (TNFα). TNFα is found in the CNS of AD, where neurons dependent on neurotrophins such as nerve growth factor (NGF) are particularly affected. Here we determined the effect of TNFα on the three NOS isoforms (endothelial, neuronal and inducible) in NGF-responsive PC12 cells. We found that while TNFα and NGF alone were uneffective, their simultaneous addition resulted in iNOS induction and the release of NO. In addition TNFα and NGF synergistically reduced nNOS, independently of the presence of high NO levels promoted by iNOS, while no effect was observed on eNOS. A similar pattern was observed in the brain of aged human subjects as compared to young individuals. Our results suggest that synergistic iNOS induction by TNFα and NGF may occur in selective populations of NGF-responsive neurons. Oxidative damage in such neurons could then occur in the presence of elevated levels of TNFα, that potentially occur in the brain of AD patients. This damaging scenario may further be aggravated by a concomitant reduction of nNOS, brought about by similar synergistic effects between TNFα and NGF.
Acknowledgements:   Supported by NIA (AG13945) and Sealy Res. Dev. grants to GT.     

Both Short- and Long-Term Effects of Nerve Growth Factor on Tyrosine Hydroxylase in Calf Adrenal Chromaffin Cells Are Blocked by S-Adenosylhomocysteine Hydrolase Inhibitors

We have previously shown that primary cultures of calf chromaffin cells respond to nerve growth factor (NGF) treatment with a selective induction of tyrosine hydroxylase (TH), which takes 48 h to be manifested. In the present study, we report that short exposure of calf chromaffin cells to NGF (5-60 min) results in TH activation, which involves a change in the Vmax of the enzyme with no change in the number of enzyme molecules, similar to an effect that has been previously reported in PC12 cells. This activation is markedly potentiated when the chromaffin cells are plated on a laminin substrate, such that after 5 min of NGF exposure, there is an approximately fourfold increase in the TH activity. Both short-term activation and long-term TH induction brought about by NGF treatment are blocked by 5'-deoxy-5'-methylthioadenosine and other drugs that act as S-adenosylhomocysteine (SAH) hydrolase inhibitors to block methylation by end-product inhibition. These drugs did not inhibit cyclic AMP-mediated TH activation or increases in the levels of TH. However, measurements of the degree of blockade of methylation in cells treated with these drugs, taken together with conceptual information regarding the nonregulatory nature of methylation in eukaryotic cells, were not consistent with inhibition of methylation as the crucial effect of the drugs to block the effects of NGF. Nonetheless, since SAH hydrolase inhibitors selectively inhibited NGF-mediated effects, and not comparable effects triggered by other stimuli, these compounds provide useful tools in future studies of the biochemical signalling mechanism of NGF.