High prevalence of mental disorders in primary care

OBJECTIVE: To determine the prevalence of common mental disorders in an adult primary care population. DESIGN: Cross-sectional survey in randomly selected subjects, using the PRIME-MD questionnaire. SETTING: Eighty-six general practices in Belgium. SUBJECTS: A total of 2316 randomly selected patients, aged 18 years or older and consulting their general practitioner for other than administrative reasons alone, with slightly more women (58.1%) than men (41.3%). MAIN OUTCOME RESULT: Prevalence rates of mental disorders most commonly seen in primary care practice (mood, anxiety, somatoform, eating and alcohol disorders). METHODS: To facilitate data collection and processing, the entire PRIME-MD questionnaire was programmed on a handheld computer. Patient answers and physician assessments were immediately electronically recorded during the interview. All investigators were trained on the use of the PRIME-MD. The recruitment period lasted 6 weeks: from 15 February to 25 March 1999, and patients were randomly selected for the interview based on a computerized procedure. RESULTS: Although only 5.4% of all patients consulted for a psychiatric reason, a threshold/subthreshold psychiatric disorder was detected in 42.5% of all patients. Most commonly detected disorders were mood disorders in 31.0% (major depressive disorder, 13.9% and dysthymia, 12.6%), anxiety disorders in 19.0% (generalized anxiety disorder, 10.3%), somatoform disorders in 18.0% and probable alcohol abuse/dependence in 10.1%. The results also showed the important rate of comorbidity between these disorders. CONCLUSION: The present study confirms the high prevalence of mental disorders in a general practice setting, and their frequent association. Prevalence rates of our study are even higher than those obtained in previously conducted trials. Our study also demonstrates the utility of the PRIME-MD as a screening tool for mental disorders in primary care. In addition the use of the handheld computer software version of the PRIME-MD allowed us to screen for mental disorders in patients who are unable to attend the GP office and are seen during 'home' visits.     

ATP13A2-mediated endo-lysosomal polyamine export counters mitochondrial oxidative stress

Recessive loss-of-function mutations in ATP13A2 (PARK9) are associated with a spectrum of neurodegenerative disorders, including Parkinson’s disease (PD). We recently revealed that the late endo-lysosomal transporter ATP13A2 pumps polyamines like spermine into the cytosol, whereas ATP13A2 dysfunction causes lysosomal polyamine accumulation and rupture. Here, we investigate how ATP13A2 provides protection against mitochondrial toxins such as rotenone, an environmental PD risk factor. Rotenone promoted mitochondrial-generated superoxide (MitoROS), which was exacerbated by ATP13A2 deficiency in SH-SY5Y cells and patient-derived fibroblasts, disturbing mitochondrial functionality and inducing toxicity and cell death. Moreover, ATP13A2 knockdown induced an ATF4-CHOP-dependent stress response following rotenone exposure. MitoROS and ATF4-CHOP were blocked by MitoTEMPO, a mitochondrial antioxidant, suggesting that the impact of ATP13A2 on MitoROS may relate to the antioxidant properties of spermine. Pharmacological inhibition of intracellular polyamine synthesis with α-difluoromethylornithine (DFMO) also increased MitoROS and ATF4 when ATP13A2 was deficient. The polyamine transport activity of ATP13A2 was required for lowering rotenone/DFMO-induced MitoROS, whereas exogenous spermine quenched rotenone-induced MitoROS via ATP13A2. Interestingly, fluorescently labeled spermine uptake in the mitochondria dropped as a consequence of ATP13A2 transport deficiency. Our cellular observations were recapitulated in vivo, in a Caenorhabditis elegans strain deficient in the ATP13A2 ortholog catp-6. These animals exhibited a basal elevated MitoROS level, mitochondrial dysfunction, and enhanced stress response regulated by atfs-1, the C. elegans ortholog of ATF4, causing hypersensitivity to rotenone, which was reversible with MitoTEMPO. Together, our study reveals a conserved cell protective pathway that counters mitochondrial oxidative stress via ATP13A2-mediated lysosomal spermine export.

Loss-of-function mutations in ATP13A2 (PARK9) are causative for a spectrum of neurodegenerative disorders, including Kufor-Rakeb syndrome (KRS, a juvenile onset parkinsonism with dementia) (1), early-onset Parkinson’s disease (PD) (2, 3), hereditary spastic paraplegia (HSP) (4), neuronal ceroid lipofuscinosis (5), and amyotrophic lateral sclerosis (6), which are commonly hallmarked by lysosomal and mitochondrial dysfunction (4, 6, 7). Also, ATP13A2 deficiency causes lysosomal and mitochondrial impairment in various models, as evidenced by decreased lysosomal functionality (8, 9), reduced mitochondrial clearance capacity (8–10), mitochondrial fragmentation, mitochondrial DNA damage, and increased oxygen consumption (11, 12).We recently discovered that ATP13A2 transports the polyamines spermidine and spermine from the late endo/lysosome to the cytosol (9). Polyamines are ubiquitous polycationic aliphatic amines that stabilize nucleic acids, influence protein folding, regulate ion channels, and modulate cell proliferation and differentiation (13–15). We found that the late endo-lysosomal transporter ATP13A2 strongly contributes to the total cellular polyamine content via a two-step process: Firstly, polyamines enter the cell via endocytosis and subsequently, polyamines are transported by ATP13A2 into the cytosol (9). This process complements polyamine biosynthesis via the ornithine decarboxylase (ODC) pathway (9). Importantly, ATP13A2’s polyamine transport function is crucial for its neuroprotective effect, since it prevents lysosomal polyamine accumulation and subsequent lysosomal rupture, while improving lysosomal health and functionality (9). Moreover, when activated by its two regulatory lipids—phosphatidylinositol-3,5-bisphosphate [PI(3,5)P2] and phosphatidic acid (PA)—ATP13A2 exerts a cell protective effect against the mitochondrial neurotoxin rotenone (16), an environmental risk factor for PD (17). Rotenone is a mitochondrial complex I inhibitor, which leads to high levels of reactive oxygen species (ROS), promoting protein aggregation and damaging organelles. However, how ATP13A2’s polyamine transport function exerts a cell protective effect against rotenone, or other mitochondrial neurotoxins, is not yet clear.Interestingly, the transported substrates spermine and spermidine reduce oxidative stress (14, 15). Spermine is a potent free radical scavenger (18) and a biologically important antioxidant (19–23). We therefore hypothesize that ATP13A2-mediated polyamine transport may counteract oxidative stress (16, 24) and preserve mitochondrial health (11, 12). Here, we demonstrate in complementary human cell models and Caenorhabditis elegans that lysosomal polyamine export by ATP13A2 effectively lowers ROS levels and promotes mitochondrial health and functionality, pointing to a lysosomal-dependent cell protective pathway that may be implicated in ATP13A2-related neurodegenerative disorders.     

Neurotransmitters involved in fast excitatory neurotransmission directly activate enteric glial cells

Background The intimate association between glial cells and neurons within the enteric nervous system has confounded careful examination of the direct responsiveness of enteric glia to different neuroligands. Therefore, we aimed to investigate whether neurotransmitters known to elicit fast excitatory potentials in enteric nerves also activate enteric glia directly. Methods We studied the effect of acetylcholine (ACh), serotonin (5‐HT), and adenosine triphosphate (ATP) on intracellular Ca²⁺ signaling using aequorin‐expressing and Fluo‐4 AM‐loaded CRL‐2690 rat and human enteric glial cell cultures devoid of neurons. The influence of these neurotransmitters on the proliferation of glia was measured and their effect on the expression of c‐Fos as well as glial fibrillary acidic protein (GFAP), Sox10, and S100 was examined by immunohistochemistry and quantitative RT‐PCR. Key Results Apart from ATP, also ACh and 5‐HT induced a dose‐dependent increase in intracellular Ca²⁺ concentration in CRL‐2690 cells. Similarly, these neurotransmitters also evoked Ca²⁺ transients in human primary enteric glial cells obtained from mucosal biopsies. In contrast with ATP, stimulation with ACh and 5‐HT induced early gene expression in CRL‐2690 cells. The proliferation of enteric glia and their expression of GFAP, Sox10, and S100 were not affected following stimulation with these neurotransmitters. Conclusions & Inferences We provide evidence that enteric glial cells respond to fast excitatory neurotransmitters by changes in intracellular Ca²⁺. On the basis of our experimental in vitro setting, we show that enteric glia are not only directly responsive to purinergic but also to serotonergic and cholinergic signaling mechanisms.     

Coexpression of GSK-3beta corrects phenotypic aberrations of dorsal root ganglion cells, cultured from adult transgenic mice overexpressing human protein tau

Coexpression of constitutively active GSK-3beta[S9A] rescued the axonal pathology induced by overexpression of human tau in transgenic mice (Spittaels et al., (2000) J. Biol. Chem. 275, 41340-41349). We isolated dorsal root ganglion (DRG) neuronal cultures from adult tau4R- and tau4R x GSK-3beta-transgenic mice to define the mechanisms at the cellular and subcellular level. DRG from tau4R-transgenics showed a reduced sprouting capacity while density and stability of microtubules in the axonal processes were significantly increased. Video-enhanced contrast microscopy demonstrated a dramatic inhibition of fast axonal transport. Coexpression of GSK-3beta increased tau phosphorylation and reversed the effects on microtubule stability and saltatory motion. In DRG from GSK-3beta single transgenics, increased tau phosphorylation was evident without any major effects on microtubule stability or axonal transport. These observations support the hypothesis that excess tau competed with motor-proteins for binding to microtubules and/or that a rigid microtubular system inhibits axonal transport.     

Expression of human apolipoprotein E4 in neurons causes hyperphosphorylation of protein tau in the brains of transgenic mice

Epidemiological studies have established that the epsilon 4 allele of the ApoE gene (ApoE4) constitutes an important risk factor for Alzheimer's disease and might influence the outcome of central nervous system injury. The mechanism by which ApoE4 contributes to the development of neurodegeneration remains unknown. To test one hypothesis or mode of action of ApoE, we generated transgenic mice that overexpressed human ApoE4 in different cell types in the brain, using four distinct gene promoter constructs. Many transgenic mice expressing ApoE4 in neurons developed motor problems accompanied by muscle wasting, loss of body weight, and premature death. Overexpression of human ApoE4 in neurons resulted in hyperphosphorylation of the microtubule-associated protein tau. In three independent transgenic lines from two different promoter constructs, increased phosphorylation of protein tau was correlated with ApoE4 expression levels. Hyperphosphorylation of protein tau increased with age. In the hippocampus, astrogliosis and ubiquitin-positive inclusions were demonstrated. These findings demonstrate that expression of ApoE in neurons results in hyperphosphorylation of protein tau and suggests a role for ApoE in neuronal cytoskeletal stability and metabolism.     

Histopathological discriminant criteria between lichenoid drug eruption and idiopathic lichen planus: retrospective study on selected samples

The lesions observed in 15 idiopathic lichen planus (ILP) skin biopsies were compared with those occurring in 15 clinically relevant lichenoid drug eruptions (LDE). Various histopathological features were taken into account. Statistical analysis of results showed that none of these can be considered as a significant criterium allowing a pathognomonic differential diagnosis between ILP and LDE. Nevertheless, a strong suggestion of drug etiology can be inferred when the following histopathological signs ('LDE-related criteria') are present: focal parakeratosis, focal interruption of the granular layer, cytoid bodies in the cornified and granular layers, present in more than 50% of LDE and never in ILP.