Sex differences in amino acids lost via sweating could lead to differential susceptibilities to disturbances in nitrogen balance and collagen turnover.

Fluid collected during sweating is enriched with amino acids derived from the skin's natural moisturising factors and has been termed "faux" sweat. Little is known about sex differences in sweat amino acid composition or whether faux sweat amino acid losses affect nitrogen balance. Faux sweat collected by healthy adults (n = 47) after exercise, and at rest by chronic fatigue patients, was analysed for amino acid composition. Healthy females had higher total amino acid concentrations in sweat (10.5 ± 1.2 mM) compared with healthy males (6.9 ± 0.9 mM). Females had higher levels of 13 amino acids in sweat including serine, alanine and glycine. Higher hydroxyproline and proline levels suggested greater collagen turnover in females. Modelling indicated that with conservative levels of exercise, amino acid losses in females via faux sweat were triple than those predicted for urine, whereas in males they were double. It was concluded that females were more susceptible to key amino acid loss during exercise and/or hot conditions. Females reporting chronic fatigue had higher levels of methionine in faux sweat than healthy females. Males reporting chronic fatigue had higher levels of numerous amino acids in faux sweat compared to healthy males. Higher amino acid loss in faux sweat associated with chronic fatigue could contribute to a hypometabolic state. Depending on activity levels, climatic conditions and gender, amino acid losses in sweat and skin leachate could influence daily protein turnover where periods of continuously high turnover could lead to a negative net nitrogen balance.

Diverse characteristics of the urinary excretion of amino acids in humans and the use of amino acid supplementation to reduce fatigue and sub-health in adults.

BACKGROUND: The excretion of amino acids in urine represents an important avenue for the loss of key nutrients. Some amino acids such as glycine and histidine are lost in higher abundance than others. These two amino acids perform important physiological functions and are required for the synthesis of key proteins such as haemoglobin and collagen. METHODS: Stage 1 of this study involved healthy subjects (n = 151) who provided first of the morning urine samples and completed symptom questionnaires. Urine was analysed for amino acid composition by gas chromatography. Stage 2 involved a subset of the initial cohort (n = 37) who completed a 30 day trial of an amino acid supplement and subsequent symptom profile evaluation. RESULTS: Analyses of urinary amino acid profiles revealed that three groups could be objectively defined from the 151 participants using k-means clustering. The amino acid profiles were significantly different between each of the clusters (Wilks' Lambda = 0.13, p < 0.0001). Cluster 1 had the highest loss of amino acids with histidine being the most abundant component. Cluster 2 had glycine present as the most abundant urinary amino acid and cluster 3 had equivalent abundances of glycine and histidine. Strong associations were observed between urinary proline concentrations and fatigue/pain scores (r = .56 to .83) for females in cluster 1, with several other differential sets of associations observed for the other clusters. CONCLUSIONS: Different phenotypic subsets exist in the population based on amino acid excretion characteristics found in urine. Provision of the supplement resulted in significant improvements in reported fatigue and sleep for 81% of the trial cohort with all females reporting improvements in fatigue. TRIAL REGISTRATION: The study was registered on the 18th April 2011 with the Australian New Zealand Clinical Trials Registry ( ACTRN12611000403932 ).

Reduction of the small synaptic vesicle protein synaptophysin but not the large dense core chromogranins in the left thalamus of subjects with schizophrenia.

BACKGROUND: It has been hypothesized that a lesion in the neuronal circuits of thalamus might contribute to the symptoms in schizophrenia. It has also been suggested that impaired synaptic transmission is an important component of the pathophysiology of schizophrenia. In the present study we assess the synaptic integrity of thalamus by means of examining the protein levels of: (1) synaptophysin, a membrane bound protein of small synaptic vesicles, and (2) chromogranins, a family of soluble secretory proteins stored and released from the secretory large dense-core vesicles. METHODS: The brains of 9 patients with schizophrenia and 9 age-matched control subjects were studied. The levels of synaptophysin and chromogranins were measured by radioimmunoassays. RESULTS: The amount of synaptophysin in the left thalamus was significantly decreased (p = .036) in the schizophrenic group (2655 +/- 605 nmol synaptophysin/mg total protein) compared to the control group (3248 +/- 827 nmol synaptophysin/mg total protein). There were no differences between the groups in the levels of chromogranins, nor in the levels of synaptophysin of the right thalamus. CONCLUSIONS: These findings indicate defect synaptic function in the left thalamus of patients with schizophrenia. This may be the cause of a reduction of synaptic terminals or a defect limited to certain structures of the synapse, namely the small presynaptic vesicles.

Significance of decreased lumbar CSF levels of HVA and 5-HIAA in Alzheimer's disease.

The monoamine metabolites homovanillic acid (HVA), 5-hydroxy-indoleacetic acid (5-HIAA) and 4-hydroxy-3-methoxy-phenylglycol (HMPG) were determined in lumbar cerebrospinal fluid (CSF) of 123 patients with Alzheimer's disease (AD) and 57 healthy controls. Despite CSF sampling under strictly standardized conditions, a wide variability in values among both patients and controls was found, as well as fluctuations in repeated samples from individual patients. This suggests that several unknown factors influence the lumbar CSF levels of monoamine metabolites. The AD group showed significantly lower mean levels of HVA (p less than 0.0001) and 5-HIAA (p less than 0.0001) than the control group. A relation between severity of disease and HVA was also found. The widespread neurotransmitter disturbance in AD, together with the nonspecificity of reduced lumbar HVA and 5-HIAA levels, suggests that the changes are nonspecific, secondary to the cerebral degeneration in AD.

Increased proteolytic activity in lymphocytes from patients with early onset Alzheimer's disease.

The levels of calpains (m-calpain and mu-calpain) in peripheral blood lymphocytes from patients with Alzheimer's disease were determined via Western blotting. The Ca-dependent proteolytic activity and the calpastatin activity were estimated using incubation with exogenous substrate. Evidence was obtained for an increased Ca-dependent proteolytic activity in lymphocytes from patients with early onset Alzheimer's disease. There was also an increased level of membrane-bound mu-calpain in this group of patients. The observed changes may be caused by a general dysregulation of Ca homeostasis in peripheral cells of early onset Alzheimer victims.

VIP-sensitive adenylate cyclase, guanylate cyclase, muscarinic receptors, choline acetyltransferase and acetylcholinesterase, in brain tissue afflicted by Alzheimer's disease/senile dementia of the Alzheimer type.

Biochemical parameters were determined in autopsy material from several brain regions of thirteen patients with Alzheimer's disease/senile dementia of Alzheimer type (AD/SDAT) (mean age 75 years) and from brains of ten age-matched controls (mean age 76 years). Choline acetyltransferase specific activity was significantly lower in the nucleus caudatus, putamen, left thalamus, hippocampus and the cortex from gyrus hippocampus and the temporal lobe in AD/SDAT, acetylcholinesterase specific activity was significantly lower in the hippocampus, parietal and left frontal lobe in AD/SDAT samples than in corresponding samples from aged-matched controls. A compensatory increase of muscarinic receptors was found in the nucleus caudatus and left frontal lobe samples in AD/SDAT. Guanylate cyclase activity was not significantly altered in AD/SDAT in the brain regions examined. The basal, non-stimulated activity of adenylate cyclase was significantly (p less than 0.05) elevated in hippocampus samples from AD/SDAT patients and the enzyme activity stimulated by the vasoactive intestinal polypeptide VIP (2 microM) or forskolin (10 microM) was also elevated in AD/SDAT although not significantly.

Biochemical changes in dementia disorders of Alzheimer type (AD/SDAT).

In postmortem investigations of patients with dementia of Alzheimer type (AD/SDAT) (n = 14) the brain weight was significantly reduced when compared to controls (n = 16). In four AD/SDAT-brain parts investigated the concentrations of 5-hydroxy-tryptamine and noradrenaline were significantly reduced while 3-methoxy-4-hydroxyphenylglycol was significantly increased. In the caudate nucleus of the AD/SDAT-brains the concentrations of dopamine and homovanillic acid were significantly reduced. The activity of monoamine oxidase B was increased suggesting a proliferation of extra neuronal tissue in the AD/SDAT-brains. The activity of choline acetyl transferase was reduced in the four brain parts investigated, showing a general reduction in the acetylcholine system in the AD/SDAT-brains. The ganglioside concentration was significantly reduced suggesting a reduced density of nerve endings in the demented brains. The AD/SDAT-group was according to rating scales severely demented. Patients with an early onset of the dementia disease were more severely intellectually reduced and had more pronounced biochemical disturbances than those with a late onset of the dementia.

Calpain and calpastatin in normal and Alzheimer-degenerated human brain tissue.

The Ca2(+)-dependent neutral proteases calpain I and II as well as their specific inhibitor, calpastatin, were isolated from normal and Alzheimer-degenerated frozen human brain tissue. In the Alzheimer group calpain I activity was higher in cortex than in mesencephalon. The calpastatin activity was lower in cortex in both groups. This may implicate a higher Ca2(+)-dependent proteolysis in cortex compared to mesencephalon. In the Alzheimer group the cortical calpain II level decreased with an increasing degree of neuropathological changes. In the control group, the level of calpastatin decreased as the number of plaques and tangles increased. Evidence was obtained for a correlation of net calpain activity and the extent of neuropathological changes in cortex.

Gangliosides in cerebrospinal fluid in 'probable Alzheimer's disease'.

The concentrations of the four major brain gangliosides--GM1, GD1a, GD1b, and GT1b--were determined in cerebrospinal fluid from 43 patients with "probable Alzheimer's disease" and 19 healthy controls. Alzheimer's disease was divided into type I (with the memory disturbances and predominant cortical parietal symptoms that are characteristic of Alzheimer's disease) and type II (with general cognitive and mild confusional symptoms, with or without only mild parietal symptoms). The GM, concentration was significantly higher in patients with Alzheimer's disease type I than in those with Alzheimer's disease type II and age-matched controls, but did not differ significantly between patients with Alzheimer's type II and age-matched controls. As gangliosides are enriched in nerve cell membranes, preferentially in synapses, the findings suggest more severe degeneration of cortical nerve cells in patients with Alzheimer's disease type I than in those with Alzheimer's disease type II.

A population study on blood-brain barrier function in 85-year-olds: relation to Alzheimer's disease and vascular dementia.

We investigated blood-brain barrier (BBB) function in relation to Alzheimer's disease (AD) and vascular dementia (VAD) in the very elderly. Sixty-five 85-year-old persons from a population-based sample were followed for 3 years; 29 were demented at age 85 (13 with AD, 14 with VAD, and 2 with other dementias), 7 developed dementia during follow-up, and 29 remained nondemented. CSF/serum albumin ratio was used as as a measure of BBB function. Dementia was defined according to the DSM-III-R, AD according to the NINCDS-ADRDA criteria, and VAD according to the NINDS-Association Internationale pour la Recherche et l'Enseignement en Neurosciences (AIREN) criteria. Mean CSF/serum albumin ratio was higher in all dementias (8.5 +/- 4.3; p = 0.007) and in the subtypes AD (8.9 +/- 5.3; p = 0.046) and VAD (8.7 +/- 3.5; p = 0.002) than in nondemented individuals (versus 6.5 +/- 2.0), but it was not related to dementia severity. Nondemented women at age 85 (n = 3) who developed dementia during the follow-up had a higher CSF/serum albumin ratio than those not developing dementia (10.4 +/- 2.0 versus 6.0 +/- 1.9; p = 0.007). Nondemented individuals lacking the apolipoprotein E epsilon3 allele (n = 4) had a higher CSF/serum albumin ratio (9.3 +/- 0.8 versus 6.6 +/- 2.1; p = 0.029) than other individuals. A relative BBB dysfunction is associated with both AD and VAD among very elderly individuals. This finding is possibly found early in the disease before the onset of clinical dementia.

Putamen mitochondrial energy metabolism is highly correlated to emotional and intellectual impairment in schizophrenics.

In a recent study, we demonstrated that cytochrome-c oxidase (COX), an indicator of neuronal activity, is increased in several brain regions from chronic, medicated schizophrenics. In the present study, to address the functional significance of those findings, we have measured COX activity in a group of schizophrenics in whom antemortem geriatric measures of motor, intellectual, and emotional impairment had been assessed. COX activity in the putamen was strongly negatively correlated with emotional (r = -.76; p < .005) and intellectual impairment (r = -0.76; p < .005), but not with motor impairment (r = 0.01). No significant correlations could be found in the frontal cortex, thalamus, caudate nucleus, globus pallidus, mesencephalon, or nucleus accumbens. Dopamine D2 receptor density in the putamen, measured with [3H]raclopride, was elevated in schizophrenics as compared to controls, as were Kd values. In contrast to COX activity, D2 receptor binding was moderately, but significantly positively correlated with intellectual impairment (r = 0.64; p < .05) but not with motor impairment. Results expose a unique anomaly in the effects of neuroleptics in terms of increasing neuronal signaling in the putamen, which may underlie a reversal of cognitive deficits in schizophrenics, while at the same time, elevating D2 receptor density that seems to be detrimental.

Mitochondrial function is differentially altered in the basal ganglia of chronic schizophrenics.

In the present study, we have applied a novel strategy involving the postmortem measurement of the mitochondrial respiratory chain enzyme cytochrome-c oxidase (COX; complex IV) to identify regional changes in energy metabolism in the basal ganglia of chronic, medicated schizophrenics. COX activity was decreased in the caudate nucleus but increased in the putamen and nucleus accumbens. An increase in succinate dehydrogenase (complex II) was evident in the putamen and nucleus accumbens, but changes were not seen with NADH dehydrogenase (complex I). An analysis of interregional correlations in energy metabolism revealed several anomalies in the connections between the caudate and putamen and the globus pallidus in schizophrenics. Results provide strong evidence that changes in baseline energy metabolism in specific regions of the basal ganglia may exist in the disease. Based upon the high degree of input it receives from associative cortical areas, results suggest that a defect in the caudate may underlie certain aspects of cognitive decline in schizophrenics. In contrast, an increase in COX in the putamen, which receives extensive projections from the sensorimotor cortex, may reflect an effect of chronic neuroleptic treatment on motor function.

Antibodies in the cerebrospinal fluid of some Alzheimer's disease patients recognize amoeboid microglial cells in the developing rat central nervous system.

Previous investigations have demonstrated that the cerebrospinal fluid from Alzheimer's disease patients contains antibodies that recognize specific neuronal populations in the adult rat central nervous system. These findings suggest a pathogenic role for immunological aberrations in this disorder. In the present report the investigation of antibodies in the cerebrospinal fluid of Alzheimer's disease patients was extended to developing rat central nervous system. The antibody in cerebrospinal fluid from Alzheimer's disease patients recognized entirely different types of antigens in the developing rat central nervous system as compared to adult rat central nervous system. One of the most remarkable differences was the recognition of amoeboid microglial cells. Diverse morphological forms of amoeboid microglial cells were observed, located mainly in the cavum septum pellucidum and in the corpus callosum. Electron microscopy revealed that the cerebrospinal fluid antibody from the Alzheimer's disease patients recognized specific membrane receptors in the macrophagic microglia. The unexpected recognition of amoeboid microglia by antibodies in Alzheimer's disease-cerebrospinal fluid is particularly interesting since these cells proliferate in response to nervous system disease and also engulf debris. The results add further support to the concept that inflammation and similar immune mechanisms may contribute to Alzheimer's disease pathogenesis.

Monoamine oxidase B in brains from patients with Alzheimer's disease: a biochemical and autoradiographical study.

In vitro quantitative autoradiography using [3H]L-deprenyl, an irreversible and preferential inhibitor of monoamine oxidase B, was performed to investigate the localization of the enzyme in brains from senile dementia of Alzheimer type and control cases. Brains from three male patients with the clinical diagnosis of senile dementia of Alzheimer type and from three male control patients, without any known clinical history of neurological disorder, were obtained at autopsy. Cryosections of 100 microns thickness were mounted on gelatinized glass plates and dried over desiccant for one week at -20 degrees C. The sections were incubated with 10 nM [3H]L-deprenyl for 1 h and then exposed to film for four weeks. The autoradiographs were analysed by computer-assisted densitometry. Monoamine oxidase-B activities were also estimated in 1% homogenates from 10 different regions, using 10 microM beta-[ethyl-14C]phenylethylamine, in order to study the consonance between the autoradiographical and biochemical techniques. Both [3H]L-deprenyl binding and monoamine oxidase-B activities in senile dementia of Alzheimer type were higher than in the controls in all brain regions studied. The increase was highest in the white matter (about 70%) and in the order of 20-50% in the various gray matter regions. A high correlation coefficient (r approximately 0.9) was obtained between [3H]L-deprenyl binding and monoamine oxidase-B activity, both in the senile dementia of Alzheimer type and in the control brains.

The growth-associated protein GAP-43 is increased in the hippocampus and in the gyrus cinguli in schizophrenia.

Schizophrenia is a common and severe psychiatric disorder of unknown etiology. Numerous neuropathological studies have found subtle structural changes in limbic structures, especially medial temporal lobe structures and the gyrus cinguli. To test the hypothesis that synaptic disturbances are involved in the pathogenesis of schizophrenia, we studied the growth-associated protein 43 (GAP-43), a protein localized to presynaptic terminals, suggested to be involved in establishment and remodeling of synaptic connections, in postmortem brain tissue, using quantitative Western blotting immunohistochemistry. The material consisted of brain tissue from 17 schizophrenics (80 +/- 11 yr), diagnosed according to the DSM-III-R criteria, and 20 age-matched controls (75 +/- 13 yr). Quantitative analyses showed increased GAP-43 protein levels in schizophrenic compared to control brains, both in the hippocampus (2.43 +/- 0.78 vs 1.00 +/- 0.29; p < 0.0001) and in the gyrus cinguli (1.52 +/- 0.21 vs 1.00 +/- 0.35; p < 0.0001). Also by immunohistochemistry, increased GAP-43 staining was found in schizophrenic compared with control brains, throughout all layers of the gyrus cinguli and the hippocampus. Anomalous synaptic sprouting and reorganization, with resultant "miswiring," as well as a defect in synaptic pruning have been hypothesized to be pathogenetic factors in schizophrenia. We suggest that a decreased synaptic density, whether caused by disturbed development or damage/degeneration, may elicit a reactive synaptogenesis (reflected by an increase in GAP-43), which may be functional or anomalous. Synaptic pathology in the limbic system may be of importance in the development of psychotic symptoms in schizophrenia.

Alzheimer's disease and senile dementia: biochemical characteristics and aspects of treatment.

Alzheimer's disease (AD) and senile dementia (SD) are often classified together, but there are genetic, biochemical, neuropathological and clinical arguments for separating them. The well-known Alzheimer lesions in the brains of patients with AD and SD are described, as is the loss of neurons in the locus coeruleus. White matter changes in brains from patients with dementia are discussed and related to AD and SD. Biochemical changes in brains of patients with AD and SD include reduced activity of acetylcholinesterase (AChE) and choline-acetyltransferase (CAT), indicating reduced activity in the acetylcholinergic system. There is also, however, reduced activity in the dopamine (DA), noradrenaline (NA) and 5-hydroxytryptamine (5-HT) system. The active amines are decreased while the end metabolites are decreased to a lesser extent or normal. The levels of the active amines are thought to reflect the number of neurons, while the levels of end metabolites reflect the rate of turnover in the system. 3-Methoxy-4-hydroxyphenylglycol (MHPG) is increased to levels above normal, which may indicate an increased rate of turnover in the NA system. Monoamine oxidase B (MAO-B), which is increased in advanced age, is further increased in patients with AD and SD. It is assumed that this enzyme is localized in extraneuronal tissue, and therefore the increase may reflect a gliosis. In brains from patients with AD and SD neuropeptides are also studied. Only somatostatin and substance P, however, seem to be reduced, indicating selective damage to the neuropeptides. The biochemical changes can be given pathogenetic importance.(ABSTRACT TRUNCATED AT 250 WORDS)

Changes in dopamine receptor sensitivity in humans after heavy alcohol intake.

Dopamine (DA) sensitivity, assessed through maximal growth hormone (GH) response to stimulation by apomorphine (APO) (0.18-0.24 mg iv) was studied in 16 chronic alcoholics newly admitted after a period of heavy alcohol intake. Repeated hormonal tests were thereafter performed during a 2-month period under strictly controlled conditions to avoid relapse into alcohol consumption. Eight healthy volunteers with alcohol consumption slightly less than that of the general population were used as controls. It was found that DA sensitivity in the early abstinence phase was higher than later in the 2-month recovery period but not significantly different from control values. The relatively higher DA sensitivity in the early abstinence phase might be responsible for a lower threshold for psychotic symptoms and neuroleptic-induced extrapyramidal side effects. The results of this study give further evidence of a prolonged recovery phase after heavy alcohol intake.

Alaproclate: a pharmacokinetic and biochemical study in patients with dementia of Alzheimer type.

Alaproclate, a specific inhibitor of neuronal serotonin re-uptake, was given to 12 patients with dementia of Alzheimer type. The drug was rapidly absorbed and an elimination half-life of 7.1 +/- 0.9 h (+/- SD, n = 8) was calculated. Plasma protein binding for alaproclate was 82 +/- 1%. Two weeks of repeated administration produced plasma concentrations of alaproclate similar to those predicted from a single dose. The pharmacological effect of the drug was demonstrated by an inhibition of serotonin uptake in the patients' platelets and a reduction of the serotonin concentration in blood. Global rating of clinical efficacy showed a positive effect of alaproclate in five of the patients, mainly regarding emotional functions.

The synaptic-vesicle-specific proteins rab3a and synaptophysin are reduced in thalamus and related cortical brain regions in schizophrenic brains.

Two synaptic-vesicle proteins, rab3a and synaptophysin, have been studied on post-mortem brain tissues of schizophrenics and healthy controls. We found significantly reduced levels of rab3a in thalamus (p<0.001); for both proteins in gyrus cinguli and hippocampus (p<0.0001); for rab3a in frontal and parietal cortex (p<0.05); and no differences in temporal cortex or cerebellum in schizophrenics compared with controls. Reduced synaptic density may be a prominent feature of the molecular neuropathology of schizophrenia.

Absence of basal ganglia amino acid neuron deficits in schizophrenia in three collections of brains.

Amino acid (glutamatergic, GABAergic) neuron deficiency theories of schizophrenia offer plausible explanations of pathogenesis. However, reports of disease-related reductions in amino acid synthesizing enzymes in post-mortem brains are contradictory. We measured neuronal uptake sites for gamma-aminobutyric acid (GABA; [3H]nipecotic acid binding) and nerve terminal/glial uptake sites for L-glutamate (D-[3H aspartate binding) in three independent groups of post-mortem brains from patients with schizophrenia and control subjects. Measurements were also made of the phencyclidine site of the glutamate N-methyl-D-aspartate (NMDA) receptor. Samples from patients showed no reductions in the binding of [3H]nipecotic acid or D-[3H]aspartate in caudate, putamen or globus pallidus. On the contrary, some increased binding of both ligands was observed in patients in many comparisons with controls. There were no clear-cut changes in NMDA receptor binding. The most consistent change in the brain sets was increased [3H]nipecotic acid binding in caudate-putamen. This could be due to neuroleptic treatment. The findings produce no evidence that schizophrenia involves major loss of GABA neuron terminals in the basal ganglia or losses of corticostriatal glutamatergic projections.