Men.Phys - Reducing sedentary behavior and increasing physical activity in people with severe mental illness in an acute psychia- tric ward: a research protocol for a randomized controlled trial.

Background: People with Severe Mental Illness (SMI) (schizophrenia, bipolar disorder, major depressive disorder, and personality disorders) experience a considerable risk of premature mortality because of cardiovascular disease, smoking, metabolic syndrome, etc. Recent research has demonstrated that this population spends almost 13 h per day being sedentary. Sedentary behavior (SB) is an independent risk factor for cardiovascular disease and mortality. Given the potential for physical activity (PA) to improve health and well-being in people with SMI, we developed a pilot randomized controlled trial (RCT) to evaluate a group intervention aimed at reducing SB and increasing PA of inpatients with SMI. Our primary aim is to assess the acceptability and feasibility of Men.Phys protocol, a new integrated treatment protocol for psychiatric inpatients. Secondary aims are to verify if the Men.Phys protocol decreased sedentary behavior and increased well-being, in terms of quality sleep, quality of life, and psychopathological symptoms and other measures. Methods: Will be enrolled people with SMI consecutively admitted to the emergency psychiatric ward in Colleferro, near Rome. Participant's physical activity, health, psychiatric and psychological status will be assessed at baseline. Randomised participants will receive treatment as usual (TAU) or the Men.Phys intervention. Men.Phys involves a group activity conducted by a mental health practitioner, during which patients repeat exercises that showed through a monitor. The protocol provides that, during hospitalization, the patient follow at least 3 sessions consecutively. Lazio 1 ethics Committee approved this research protocol. Results and Conclusions: To our knowledge, Men.Phys is the first RCT to investigate the impact of a group intervention targeting sedentary behavior in people with SMI during psychiatric hospitalization. If the intervention should be feasible and acceptable, further large-scale study can be developed and then implemented in routine care.

Porcine coronary arteries: immunohistochemical profile of TNF-alpha, IL-1beta, TGF-beta1 and ICAM-1.

BACKGROUND: In our study we used immunohistochemical technique to demonstrate the presence of the cytokines tumour necrosis factor alpha (TNF-α), interleukin 1beta (IL-1ß), transforming growth factor beta1 (TGF-ß1) and intercellular adhesion molecule-1 (ICAM-1) in porcine coronaries even in physiological conditions. MATERIALS AND METHODS: Inflammatory cytokines are polypeptide mediators which act as a communication signal between immune system cells and other types of cellsin different organs and tissues, both in human and pig coronary circulation. RESULTS: Our results show that pro-inflammatory cytokines TNF-α, IL-1ß, TGF-ß1 and ICAM-1 are also present in the medium tunica of the coronary arteries under physiological conditions. These results may be compared with those found in coronary atherosclerosis, where the increase in TNF-α has a dramatic effect on the function of the left ventricle, and the high value of IL-1 correlates directly with the extent of myocardial necrosis. In our study we observe the damage and activation of endothelial cells; this induces endothelial dysfunction by accumulation and oxidation of low density lipoproteins (LDL). The formation of oxidized LDL could play a central role in the amplification of the inflammatory response causing an increased expression of pro-inflammatory cytokines which promotes leukocyte recruitment in the intimal layer. These leukocytes, after the adhesion to the endothelium, penetrate the intimate tunic. CONCLUSIONS: Therefore inflammatory processes promote the onset and evolution of atheroma and the development of thrombotic complications.

[Pathophysiology of aggressive behavior: evaluation and management of pathological aggression].

This work aims to define the aggression in all its forms, with notes on management and rapid tranquilization. The pathological aggression is described as a non-homogeneous phenomenon, it is variable in according to social, psychological and biological agents. The distinction of violence between affective aggression and predatory aggression can be functional to the prediction of outcome of any treatment. In general, a pattern of predatory violence tend to match with patients unresponsive and not compliant to treatment, a low probability to predict future violence and, therefore, a difficulty in managing risk. The affective aggressor, however, shows increased probability of treatment response, with more predictability of violent actions in reaction to situations perceived as threatening and, therefore, greater management of future violence risk. Those who act affective violence tend to show a wide range of emotional and cognitive problems, while those who act with predatory patterns show greater inclination to aggression and antisocial behavior. Aggression that occurs in psychiatry mostly appears to be affective, therefore susceptible to modulation through treatments.

Palmitoylethanolamide controls reactive gliosis and exerts neuroprotective functions in a rat model of Alzheimer's disease.

Given the complex heterogeneity of pathological changes occurring in Alzheimer's disease (AD), any therapeutic effort absolutely requires a multi-targeted approach, because attempts addressing only a single event may result ineffective. Palmitoylethanolamide (PEA), a naturally occurring lipid amide between palmitic acid and ethanolamine, seems to be a compound able to fulfill the criteria of a multi-factorial therapeutic approach. Here, we describe the anti-inflammatory and neuroprotective activities of systemic administration of PEA in adult male rats given intrahippocampal injection of beta amyloid 1-42 (Aß 1-42). Moreover, to investigate the molecular mechanisms responsible for the effects induced by PEA, we co-administered PEA with the GW6471, an antagonist of peroxisome proliferator-activated receptor-α (PPAR-α). We found that Aß 1-42 infusion results in severe changes of biochemical markers related to reactive gliosis, amyloidogenesis, and tau protein hyperphosphorylation. Interestingly, PEA was able to restore the Aß 1-42-induced alterations through PPAR-α involvement. In addition, results from the Morris water maze task highlighted a mild cognitive deficit during the reversal learning phase of the behavioral study. Similarly to the biochemical data, also mnestic deficits were reduced by PEA treatment. These data disclose novel findings about the therapeutic potential of PEA, and suggest novel strategies that hopefully could have the potential not just to alleviate the symptoms but also to modify disease progression.

Histochemical approaches to assess cell-to-cell transmission of misfolded proteins in neurodegenerative diseases.

Formation, aggregation and transmission of abnormal proteins are common features in neurodegenerative disorders including Parkinson's disease, Alzheimer's disease, amyotrophic lateral sclerosis, and Huntington's disease. The mechanisms underlying protein alterations in neurodegenerative diseases remain controversial. Novel findings highlighted altered protein clearing systems as common biochemical pathways which generate protein misfolding, which in turn causes protein aggregation and protein spreading. In fact, proteinaceous aggregates are prone to cell-to-cell propagation. This is reminiscent of what happens in prion disorders, where the prion protein misfolds thus forming aggregates which spread to neighbouring cells. For this reason, the term prionoids is currently used to emphasize how several misfolded proteins are transmitted in neurodegenerative diseases following this prion-like pattern. Histochemical techniques including the use of specific antibodies covering both light and electron microscopy offer a powerful tool to describe these phenomena and investigate specific molecular steps. These include: prion like protein alterations; glycation of prion-like altered proteins to form advanced glycation end-products (AGEs); mechanisms of extracellular secretion; interaction of AGEs with specific receptors placed on neighbouring cells (RAGEs). The present manuscript comments on these phenomena aimed to provide a consistent scenario of the available histochemical approaches to dissect each specific step.

Role of autophagy inhibitors and inducers in modulating the toxicity of trimethyltin in neuronal cell cultures.

Trimethyltin (TMT) is a triorganotin compound which determines neurodegeneration of specific brain areas particularly damaging the limbic system. Earlier ultrastructural studies indicated the formation of autophagic vacuoles in neurons after TMT intoxication. However, no evaluation has been attempted to determine the role of the autophagic pathway in TMT neurotoxicity. To assess the contribution of autophagy to TMT-induced neuronal cell death, we checked the vulnerability of neuronal cultures to TMT after activation or inhibition of autophagy. Our results show that autophagy inhibitors (3-methyladenine and L-asparagine) greatly enhanced TMT neurotoxicity. Conversely, known activators of autophagy, such as lithium and rapamycin, displayed neuroprotection against this toxic compound. Due to its diverse targets, the action of lithium was complex. When lithium was administered according to a chronic treatment protocol (6 days pretreatment) it was able to rescue both hippocampal and cortical neurons from TMT (or from glutamate toxicity used as reference). This effect was accompanied by an increased phosphorylation of glycogen synthase kinase 3 which is a known target for lithium neuroprotection. If the pre-incubation time was reduced to 2 h (acute treatment protocol), lithium was still able to counteract TMT toxicity in hippocampal but not in cortical neurons. The neuroprotective effect of lithium acutely administered against TMT in hippocampal neurons can be completely reverted by an excess of inositol and is possibly related to the inactivation of inositol monophosphatase, a key regulator of autophagy. These data indicate that TMT neurotoxicity can be dramatically modified, at least in vitro, by lithium addition which seems to act through different mechanisms if acutely or chronically administered.

Effects of trimethyltin on hippocampal dopaminergic markers and cognitive behaviour.

The triorganotin compound trimethyltin (TMT) is a highly toxic molecule which has a great impact on human health. The aim of this study was to investigate the specific alteration of dopamine receptors and transporters in the hippocampus of TMT-treated rats. The TMT-treated group showed impaired spatial reference memory in a Morris water maze task compared to the control group, whereas memory consolidation tested 24 hours after the last training session was preserved. In the open field, TMT-treated rats showed a decrease in time spent in rearing episodes reflecting a lower interest to explore a novel environment. In the hippocampal area of the TMT-treated group, we observed a reduction in neuronal viability accompanied by a significant decrease in the expression of the dopamine receptors (D1 and D2), and dopamine transporters (DAT, VMAT1 and VMAT2). A less pronounced reduction was observed for D3 and D5 while D4 did not change. These data were confirmed by RT-PCR analysis. The present study on TMT-induced neurodegeneration highlights the link between hippocampal asset of dopamine receptors and transporters and the impaired performance of rats in a spatial reference memory task.

Thrombin and thrombin-derived peptides promote proliferation of cardiac progenitor cells in the form of cardiospheres without affecting their differentiation potential.

Many studies demonstrated that human adult cardiac progenitor cells in the form of cardiospheres (CSps) could represent a powerful candidate for cardiac cell therapy. To achieve the clinical translation of this biotechnological product, the development of well-defined culture conditions is required to optimize their proliferation and differentiation. Thrombin, a serine protease acting through the protease-activated receptor 1 (PAR-1) signalling to modulate many cellular functions such as proliferation and differentiation in several cell types, is one of the factors included in the CSps medium. Therefore, the assessment of the effective dependence of the thrombin related cellular effects from PAR-signalling is strategic both for understanding the biological potential of these cells and for the GMP translation of the medium formulation, using synthesised analogs. In this study the effects of thrombin on human CSps and their potential relationship with the specific proteolytic activation of PAR-1 have been investigated in different culture conditions, including thrombin inhibitor hirudin and PAR-1 agonist/ antagonist peptides TFLLR and MUMB2. In this study we show that, in the presence of thrombin and TFLLR, CSps, in which PAR-1 expression was evidenced by immunofluorescence and western blot analysis, increase their proliferation activity (BrdU assay). Such increased proliferative rate was consistently associated with a higher phosphorylation level of the cell cycle inhibitor GSK3. Concerning the assessment of the potential effects of thrombin and its agonist on differentiation, both western blot and real-time PCR analysis for stemness, cardiac and vascular markers (such as cKit, cx43 and KDR) showed that CSps commitment was substantially unaffected, except for GATA4 mRNA, whose transcription was down-regulated in the presence of the natural protease, but not after treatment with TFLLR. In conclusion, activation of PAR-1-dependent signalling is important to support CSps proliferative potential, keeping unaltered or at best stable their differentiation properties. The availability of thrombin agonists, such as TFLLR, able to guarantee the required growth effect without affecting CSps lineage commitment, could represent a technological improvement for cost-effective, easy-to-handle and GMPtranslatable synthetic media.

White matter reduced streamline coherence in young men with autism and mental retardation.

BACKGROUND AND PURPOSE: It has been proposed that white matter alterations might play a role in autistic disorders; however, published data are mainly limited to high-functioning autism. The goal of this study was to apply diffusion tensor imaging (DTI) and fiber tractography (FT) to study white matter in low-functioning autism and the relationship between white matter and cognitive impairment. METHODS: Ten low-functioning males with autism (mean age: 19.7 +/- 2.83 years) and 10 age-matched healthy males (mean age: 19.9 +/- 2.64 years) underwent DTI-MRI scanning. fractional anisotropy (FA) maps were analyzed with whole brain voxel-wise and tract-of-interest statistics. Using FT algorithms, white matter tracts connecting the orbitofrontal cortex (OFC) with other brain regions were identified and compared between the two groups. FA mean values of the autistic group were correlated with intelligence quotient (IQ) scores. RESULTS: Low-functioning autistic subjects showed a reduced tract volume and lower mean FA values in the left OFC network compared with controls. In the autistic group, lower FA values were associated with lower IQ scores. CONCLUSIONS: We showed evidence of OFC white matter network abnormalities in low-functioning autistic individuals. Our results point to a relationship between the severity of the intellectual impairment and the extent of white matter alterations.

Methamphetamine induces ectopic expression of tyrosine hydroxylase and increases noradrenaline levels within the cerebellar cortex.

Methamphetamine produces locomotor activation and typical stereotyped motor patterns, which are commonly related with increased catecholamine activity within the basal ganglia, including the dorsal and ventral striatum. Since the cerebellum is critical for movement control, and for learning of motor patterns, we hypothesized that cerebellar catecholamines might be a target of methamphetamine. To test this experimental hypothesis we injected methamphetamine into C57 Black mice at the doses of 5 mg/kg two or three times, 2 h apart. This dosing regimen is known to be toxic for striatal dopamine terminals. However, we found that in the cerebellum, methamphetamine increased the expression of the primary transcript of the tyrosine hydroxylase (TH) gene, followed by an increased expression of the TH protein. Increased TH was localized within Purkinje cells, where methamphetamine increased the number of TH-immunogold particles, and produced a change in the distribution of the enzyme by increasing the cytoplasmic percentage. Increased TH expression was accompanied by a slight increase in noradrenaline content. This effect was highly site-specific for the cortex of posterior vermal lobules, while only slight effects were detectable in the hemispheres. The present data indicate that the cerebellum does represent a target of methamphetamine, which produces specific and fine alterations of the catecholamine system involving synthesis, amount, and compartmentalization of TH as well as increased noradrenaline levels. This may be relevant for motor alterations induced by methamphetamine. In line with this, inherited cerebellar movement disorders in various animal species including humans are associated with increased TH immunoreactivity within intrinsic neurons of the same lobules of the cerebellar cortex.

Expression of neurotransmitters and neurotrophins in human adenoid tissue.

Mucosae-associated lymphoid tissues are richly innervated and the mucosae contain peptidergic nerve endings associated with different types of cells and macrophages. The lymphatic tissue is known to interact with the nervous system and several organs, implicated in the host response to a wide range of stressors, and is also richly innervated. We focussed our attention on the immune organs with particular regard to the human adenoid lymphatic tissues in order to investigate the neuroimmune links and the possible existence of relationships among different neurotransmitters and lymphocytes, macrophages, epithelial cells and nerve fibers by testing the expression of certain neurotransmitters and neurotrophins (NTs) with their own receptors.

Effects of fluoxetine, indomethacine and placebo on 3 alpha, 5 alpha tetrahydroprogesterone (THP) plasma levels in uncomplicated alcohol withdrawal.

OBJECTIVE: The purpose of this study was to investigate the effects of fluoxetine (F) and indomethacine (I), two drugs that regulate the synthesis of the GABAergic neurosteroid 3 alpha, 5 alpha tetrahydroprogesterone (allopregnanolone, THP) on THP plasma levels and on symptoms of anxiety and depression in alcoholics during ethanol withdrawal. METHOD: Patients who met DSM-IV criteria for alcohol abuse were randomly assigned to treatment with F (40 mg/day) plus misoprostol (M) (500 mg/day) or I (100 mg/day) plus M or placebo (PL) plus M. Patients were rated with the Hamilton Anxiety (14-HAS) and Depression (17-HDS) scales on days 1, 5, 7, 15 and 28 of ethanol withdrawal and with a Visual Analogue Scale for Depression (VASD) and a Visual Analogue Scale for Anxiety (VASA) on days 1, 2, 4, 5, 7, 15 and 28 of withdrawal. On the same days a plasma sample was collected to measure the concentrations of THP by means of a very sensitive gas chromatographic mass spectrometric method. RESULTS: During withdrawal at days 1, 2, 4 and 5, THP plasma values were lower and symptoms of anxiety and depression were significantly higher compared to the late withdrawal phase at days 15 and 28. In the F or I treatment, the depression and anxiety score, measured by VASD and VASA, decreased significantly at day 5-7 whereas THP plasma levels significantly increased compared to PL condition CONCLUSIONS: Treatment of alcohol withdrawal either with F or I reduced the extent of anxiety and depression and normalised THP plasma levels that were decreased during withdrawal.

Identification of a short sequence highly divergent between beta-adrenergic-receptor kinases 1 and 2 that determines the affinity of binding to betagamma subunits of heterotrimeric guanine-nucleotide-binding regulatory proteins.

A 28-residue peptide (peptide G), derived from the C-terminal (W643-S670) of the beta-adrenergic receptor kinase (betaARK), was previously identified as the critical domain for binding to the betagamma subunits of the heterotrimeric guanine-nucleotide-binding regulatory protein (G betagamma). We observed that the 18-amino-acid core of this domain is poorly conserved between betaARK1 and betaARK2 and so may provide the basis for differences in G betagamma-binding properties. Specific antibodies raised against 18-residue peptides derived from the divergent sequences (peptides P1 and P2 for betaARK1 and betaARK2, respectively) competitively inhibited G betagamma-activation of the related betaARK subtype, confirming the involvement of this region in binding to G betagamma. Peptides P1 and P2 inhibited G betagamma-stimulated activity of both betaARK1 and betaARK2, with P2 being significantly more potent than P1 (IC50 of 179+/-5 microM for P2 and >500 microM for P1). The 28-residue peptides G showed the same relative inhibitory activities (IC50 = 48+/-5 microM for G2 and 146+/-8 microM for G1). This relative order of potency G2 > G1 approximately P2 > P1 was confirmed in a direct G betagamma-binding assay. No binding selectivity for the beta1, beta2, beta3 and beta4 G beta subtypes was observed. The EC50 value for G betagamma-activation of betaARK1 was about double of that for betaARK2, indicating a higher affinity between G betagamma and betaARK2, which is the expected result based on the findings with the peptides. These findings show that the 18-residue peptides P represent the shortest sequence of betaARK that can bind to G betagamma and provide a demonstration of a functional difference between the G betagamma binding domains of betaARK1 and betaARK2.

Marked decrease of plasma neuroactive steroids during alcohol withdrawal.

The neuroactive steroids allopregnanolone (ALLO) and allotet-rahydrodeoxycorticosterone (THDOC) are the most potent endogens positive modulators of gamma-aminobutyric acid (GABA) on GABAA receptors, a receptor system presumably responsible for some behavioral responses to alcohol withdrawal. In a group of nine alcoholic subjects, the levels of plasma ALLO and THDOC were markedly lower than those of control subjects during the early withdrawal phase (day 4 and 5), when anxiety and depression scores were higher. In contrast ALLO and THDOC plasma levels did not differ from those of control subjects during the late withdrawal phase when anxiety and depression scores were low. These results suggest that the decrease of neuroactive steroid biosynthesis may contribute to the withdrawal symptoms.

Protease inhibitors in mouse skeletal muscle: tissue-associated components of serum inhibitors and calpastatin.

The proteinase inhibitor set in skeletal muscle is poorly characterized at present. This study was aimed to investigate in mouse skeletal muscle 1) the tissue-associated counterpart, if any, of serum protease inhibitors (which may also play antiproteolytic functions in tissues) and 2) calpastatin, a tissue inhibitor of calcium-activated neutral proteases (calpains). Triton-extracts were prepared from muscle homogenates of mice, which had been perfused extensively with phosphate buffered saline (PBS) (under deep anesthesia) to remove blood inhibitors. Among various inhibitors tested, the following muscle-associated inhibitors were identified by western-blotting: alpha-2-macroglobulin (185, 165, 35 kDa), alpha-1-antitrypsin (52 kDa), inter-alpha-trypsin inhibitor (220, 180 kDa) and calpastatin (70 kDa). Combined light microscope and confocal immunohistochemical experiments revealed that, in all muscles examined (soleus, plantaris, extensor digitorum longus) the above specific immunoreactivities were localized outside the muscle fibers (in periendomysium, blood vessel wall) as well as within them. Inter-alpha-trypsin inhibitor, however, completely lacked the intracellular localization. This wide distribution of proteinase inhibitors suggests that numerous muscular structures may be normally protected from unwanted proteolysis, thus providing an essential background for further studies on pathological models with altered proteolysis (m. dystrophy, denervation atrophy, etc.).

[Immunochemical and immunohistochemical study of calpastatin, an endogenous calpain inhibitor, in the masseter muscle of the rabbit]. / Studio immunochimico ed immunoistochimico della calpastatina, inibitore endogeno delle calpaine, nel muscolo massetere di coniglio.

The calpains-calpastatin system (calcium-activated neutral proteases and endogenous inhibitor) seems to be, in the skeletal muscle, a fine enzymatic system of myofibrillar turnover regulation, in normal as well as pathological conditions (for ex., dystrophic muscle). The purpose of the research is to establish in qualitative and quantitative terms whether the level of calpastatin can evidence differences between a muscle in normal activity conditions and one having dysfunctional alterations experimentally induced. So the masseter muscle of rabbit in normal conditions and with experimentally modified occlusal plane has been used. Our results confirm the presence of the 68 KDa calpastatin in the masseter muscle. The presence of the inhibitor in the same subcellular structures in which the calpains have been detected (myofibrillars, sarcolemma, endomysial connective) has been confirmed. Finally, variations in calpastatin amount in the muscle of animals experimentally treated with respect to the controls have been found. Thus, calpastatin seems to act as a marker of muscle dysfunctions connected to occlusal plane alteration and to loss of vertical dimention.

[The radiology of cerebral and paranasal sinus fungal lesions]. / La radiologia delle lesioni fungine cerebrali e dei seni paranasali.

Pulmonary fungal infections have been increasingly reported in the patients with hematologic malignancies treated with aggressive chemotherapy and therefore presenting chemotherapy-induced leukopenia. The diagnosis of fungal infections in these severely immunocompromised hosts is of great importance, enabling the administration of an antifungal treatment to prevent potentially fatal fungal dissemination. This retrospective study was carried out to assess the most valuable conventional radiologic and CT features in the diagnosis of sinusal and cerebral mycosis infections. The authors reviewed their personal series of 71 patients with malignant hematologic diseases who developed a fungal lesion: twenty-eight cases were selected, 10 of them with an autoptic diagnosis of cerebral fungal lesions and 18 with a bioptic diagnosis of paranasal fungal lesions. In 10 patients with encephalic lesions, CT enabled four main types of tomodensitometric alterations with fungine etiology to be singled out--i.e., ischemic lesions, brain abscesses, granulomatoses and meningitis with possible brain parenchyma involvement. In 18 patients with fungal sinusitis, radiography and CT showed three main types of alterations: sinus opacities, pseudocystic images within the sinus and bone erosions. We conclude that in sinusal and cerebral fungal lesions no "specific criteria" can be established for the radiologic differential diagnosis between different fungine species and between fungine lesions with different etiologic agents.

Immunohistochemical localization of serine-protease inhibitors in the human placenta.

Proteases and their inhibitors play a pivotal role in developmental and differentiative processes. In the present report we investigated the immunohistochemical localization of alpha 1-antitrypsin, alpha 1-antichymotrypsin and inter-alpha-trypsin inhibitor in first trimester as well as in term human placentas. For this purpose polyclonal antibodies against these serine-protease inhibitors were used. All inhibitors were expressed in the villous syncytiotrophoblast of first and last trimester placentas. Placental fibrinoid was positively stained for alpha 1-antitrypsin and inter-alpha-trypsin inhibitor throughout gestation. alpha 1-Antitrypsin and alpha 1-antichymotrypsin showed a strong immunostaining in the Hofbauer cells (first trimester and full term placentas). Extravillous cytotrophoblast was negative for the three protease inhibitors throughout gestation. The presence of the three inhibitors in the syncytiotrophoblast suggests a role in coagulative, invasive and immunomodulatory processes. Fibrinoid, staining for alpha 1-antitrypsin and inter-alpha-trypsin inhibitor, could also have an important immunoprotective function. The presence of protease inhibitors in the Hofbauer cells suggests an involvement of these cells in villous remodelling and differentiative processes.