Damiano Zaccheo

Oxidative stress increases expression and activity of BACE in NT2 neurons.

Recently an aspartyl protease with beta-secretase activity called BACE was identified. In the present paper we showed that BACE is modulated by the oxidative stress product 4-hydroxynonenal (HNE). Exposure of NT(2) neurons to the two classical pro-oxidant stimuli ascorbate/FeSO(4) and H(2)O(2)/FeSO(4) resulted in a significant generation of HNE, which is temporally followed by an increased production of BACE protein levels. HNE mediated BACE induction is accompanied by a proportional elevation of carboxy-terminal fragments of amyloid precursor protein. Moreover, the direct relationship between BACE induction and lipid peroxidation products was strongly confirmed by the protection exerted by a short pretreatment with alpha-tocopherol, the most important antioxidant known to prevent the formation of aldehydic end-products of lipid peroxidation, including HNE. Our results support the hypothesis that oxidative stress and A beta production are strictly interrelated events and suggest that inhibition of BACE may have a therapeutic effect synergic with antioxidant compounds.

Full length α-synuclein is present in cerebrospinal fluid from Parkinson's disease and normal subjects

Several clues suggest that α-synuclein, a presynaptic protein, plays a central role in the pathogenesis of idiopathic Parkinsons disease (PD). To search a peripheral marker of PD, we analyzed presence and amount of α-synuclein in CSF from 12 PD patients and 10 neurologically normal subjects. The protein was extracted from CSF samples through immunoprecipitation and immunoblotting with different specific anti-α-synuclein antibodies. We identified a 19 kDa band that corresponds to monomeric α-synuclein, given its comigration with homologue human recombinant peptide as well as with the protein extracted from cerebral cortex of normal subjects. The amount of CSF 19 kDa α-synuclein did not significantly vary in PD and normal cases. These findings have two implications: (a) full length α-synuclein is released by neurons in the extracellular space; (b) α-synuclein does not appear a peripheral marker of PD pathology.

Neurotransmitters, neuroreceptors and aging

At first glance, it is satisfying to see the progress which has been made in the study of neurotransmitters. We have learned a great deal in the last number of years. First, we have been able to identify previously unknown compounds which affect the nervous system or associated peripheral organs. We now know a great deal about the metabolism of these molecules including their synthesis and catabolism. We have learned to identify and to classify their receptors. We have learned that alterations in the effects of neurotransmitters may be responsible for certain pathologies or may be a function of normal aging. Yet, we still have far to go in our research. There are neurotransmitters still to be discovered. We need to continue our efforts because there is still a large amount of confusion in the literature, for example, far too many contradictory reports concerning the effects of age confuse rather than clarify. Possibly order may return to the literature if investigators can agree on some basic tenets. For example, we need a basic definition of old. Some research groups consider 12-month-old rats as old while other groups consider them to be young individuals. We need to have standardization of methodology so that the conclusions can have validity. Once again certain investigators use whole brain homogenates while others use only discrete portions. We need to consider whether the effect we see in our experiment is primary or secondary to aging. We can be certain that due to the aging population, the importance of basic research of age-dependent changes in neurotransmitters and neuroreceptors will increase in the future.

HLA‐DR Schwann cell reactivity in peripheral neuropathies of different origins

HLA-DR antigens have been found on Schwann cells in peripheral neuropathies of different origins but not in normal control cases. Class II antigen reactivity was more intense in chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) and hereditary motor and sensory neuropathy type 1 (HMSN), but was also observed in toxic or metabolic neuropathies. The expression of HLA-DR antigen on Schwann cells does not appear to be related to the inflammatory or autoimmune origin of the disease.

Sensitivity to ageing of the limbic dopaminergic system: a review

The limbic system includes the complex of brain centres, nuclei and connections that provide the anatomical substrate for emotions. Although the presence of small amounts of dopamine (DA) in several limbic structures has been recognized for a long time, for many years it was thought that limbic DA represented a precursor of noradrenaline in the biosynthetic pathway of catecholamines. More recent evidence has shown that limbic centres and nuclei are supplied with a dopaminergic innervation arising from the ventral tegmental area (field A10) and in smaller amounts from the mesencephalic A9 field. The dopaminergic limbic system is sensitive to ageing. Parameters of dopaminergic neurotransmission (DA levels, biosynthetic and catabolic markers and DA receptors) undergo age-related changes which depend on the structure and species investigated and are characterized mainly by a decline of different parameters examined. In this paper, the influence of ageing on DA biosynthesis, levels, metabolism and receptors are reviewed in laboratory rodents, monkeys and humans as well as in cases of Alzheimers disease and Parkinsons disease. The possibility that changes of dopaminergic neurotransmission markers in the limbic system are associated with cognitive impairment and psychotic symptoms affecting the elderly is discussed. Better knowledge of dopaminergic neurotransmission mechanisms in the so-called physiological ageing and in senile dementia may provide new insights in the treatment of behavioural alterations frequently occurring in old age.

DOPAMINE D1-LIKE RECEPTOR SUBTYPES IN HUMAN PERIPHERAL BLOOD LYMPHOCYTES

Molecular biology studies have shown that human peripheral blood lymphocytes express a dopamine D5 receptor, whereas no information is available on dopamine D receptor, the other dopamine D1-like receptor subtype. Radioligand binding assay investigations with the nonsubtype selective dopamine D1-like receptor antagonist [3H]SCH 23390 as radioligand have suggested the presence of a dopamine D5 receptor in human peripheral blood lymphocytes. However, so far no evidence was provided as whether or not human peripheral blood lymphocytes express a dopamine D1 receptor. In this study, we have investigated dopamine D1 and D5 receptor mRNA and the influence of antibodies against dopamine D1 and D5 receptors on [3H]SCH 23390 binding to intact human peripheral blood lymphocytes. The two receptors were also analyzed by immunocytochemistry. Dopamine D5 receptor, but not D1 mRNA, was detected in human peripheral blood lymphocytes. Anti-dopamine D5 receptor antibodies, but not anti-dopamine D1 receptor antibodies, significantly decreased [3H]SCH 23390 binding to human peripheral blood lymphocytes. A dark-brown immunoreactivity was visualized in cytospin centrifuged human peripheral blood lymphocytes exposed to anti-dopamine D5, but not to anti-dopamine D1 receptor antibodies. These data collectively indicate that dopamine D5 receptor is the only dopamine D1-like receptor subtype expressed by human peripheral blood lymphocytes.

Olfactory ensheathing cells represent an optimal substrate for hippocampal neurons: an in vitro study.

Olfactory ensheathing cells (OECs) are cells that display Schwann cell or astrocyte‐like properties. They are a source of growth factors and adhesion molecules which play a very important role as neuronal support enhancing cellular survival. Over the past 10 years, OECs have emerged as a leading reparative candidate, when transplanted into the injured spinal cord, having shown significant promise in the regeneration of spinal cord lesions. In this study we assessed the efficacy of OECs on the survival and neurite outgrowth of hippocampal neurons in vitro. Co‐cultures of OECs and hippocampal of postnatal rats were successfully established and cells were immunocytochemically characterized. Some hippocampal cultures were added with growth factors, as bFGF, NGF and GDNF. Furthermore, conditioned medium from OECs cultures was used to feed some hippocampal neurons coverslips. Our results show that in co‐cultures of hippocampal neurons and OECs the number of neurons and their neurite outgrowth were significantly increased in comparison with controls. Moreover, we showed that NGF and GDNF promoted a more positive effect in both neuronal survival and neurite outgrowth than bFGF. OEC‐conditioned media stimulated both the neuronal survival and dense neurite outgrowth. These data indicate that OECs, as a source of growth factors, can promote the survival and the neurite outgrowth of hippocampal neurons in vitro and that bFGF, NGF and GDNF support them differently. Therefore, as OECs and their secreted growth factors appear to exert a neuroprotective effect for functional restoration and for neural plasticity in neurodegenerative disorders, they might be considered an approach for functional recovery.

Microanatomical localization of dopamine receptor protein immunoreactivity in the rat cerebellar cortex

Dopamine (DA) receptor subtype localization was investigated in rat cerebellar cortex using immunohistochemical techniques with antibodies raised against D1-D5 receptor protein. A faint D1 receptor protein immunoreactivity was developed in molecular and Purkinje neurons layers. D2 receptor protein immunoreactivity was found primarily in cerebellar white matter followed by molecular and granular layers and Purkinje neurons. Antibodies against D2S receptor protein were localized in molecular layer and to a lesser extent, in granular layer. A few Purkinje neurons displayed a faint D2S receptor protein immunoreactivity. D3 receptor protein immunoreactivity was observed primarily in molecular and in Purkinje neurons layers of lobules 9 and 10. A faint D3 receptor protein immunoreactivity was also localized in Purkinje neurons and to a lesser extent, in molecular and granular layers of cerebellar lobules 1-8. D4 receptor protein immunoreactivity was found in cerebellar white matter. A pale immunostaining was also visualized in molecular layer. D5 receptor protein immunoreactivity was localized primarily in molecular and Purkinje neurons layers and to a lesser extent, in granular layer and in white matter. The above results indicate that rat cerebellar cortex expresses the DA receptor subtypes so far identified. Purkinje neurons, which are the only efferent neurons of cerebellum, are richest in DA receptor protein immunoreactivity. This suggests that dopaminergic neurotransmission may modulate efferent inputs from cerebellum. The localization of the majority of D2 and D4 and of a faint D5 protein receptor immunoreactivity in cerebellar white matter suggests that these receptors may be presynaptic and transported axonally.

Increase of cdk5 is related to neurofibrillary pathology in progressive supranuclear palsy

BackgroundProgressive supranuclear palsy (PSP) is characterized by a pure neurofibrillary tau pathology involving mainly basal ganglia and brainstem nuclei. In addition to a haplotype of the tau gene potentially favoring tau aggregation, lipoperoxidation has been shown to be associated with PSP tau pathology. ObjectiveTo analyze cdk5/p35 complex, a kinase that regulates neurite outgrowth, as a potential cellular mechanism underlying tau phosphorylation in brain tissues from PSP and control cases and comparatively in cerebral cortex from subjects with AD. MethodsCdk5/p35 protein levels and distribution were evaluated by immunoblotting and immunocytochemistry in brain regions from seven PSP, six AD, and seven control cases, with similar postmortem intervals. ResultsTotal cdk5 protein levels were significantly increased by more than threefold in PSP tissue and were augmented in PSP neurons, codistributed with tau immunoreactivity. P35, the regulatory subunit of cdk5, was degraded by postmortem proteolysis to the same extent in PSP, AD, and control tissues. ConclusionsThe proteolysis in vivo of p35, the regulatory subunit of the kinase, is not ascertainable because it is masked by its postmortem degradation. The study, however, indicates that in PSP, the alteration of cdk5 is different from that described in AD and suggests that the absence of amyloid &bgr; protein deposition may account for the different pathways responsible for the same kinase activation.

Plasma levels of amyloid β 40 and 42 are independent from ApoE genotype and mental retardation in down syndrome

In Down syndrome (DS) brain an early, selective accumulation of amyloid beta (Abeta) peptides ending at residue 42 (Abeta42) occurs. Whether this event depends on an altered processing of amyloid beta precursor protein (APP) or on defective clearance is uncertain. To investigate this issue, we measured Abeta species 40 and 42 in plasma from 61 patients with DS, 77 age-matched normal controls, and 55 mentally retarded subjects without chromosomal abnormalities. The Abeta 40 and 42 plasma levels were then correlated with apolipoprotein E (apoE) genotypes in all groups of cases, and with I. Q. and Mini Mental Status Examination values in DS subjects. Both Abeta species were significantly elevated in DS compared to control groups, and the extent of their increase reflects that expected from APP gene overexpression. Plasma levels of Abeta 40 and 42 did not correlate with apoE genotypes in DS and control cases, and with the extent of mental retardation in DS subjects. The results indicate that accumulation and clearance of plasma and cerebral Abeta are regulated by different and independent factors.