The effects of congenital brain serotonin deficiency on responses to chronic fluoxetine

The importance of reversing brain serotonin (5-HT) deficiency and promoting hippocampal neurogenesis in the mechanisms of action for antidepressants remain highly controversial. Here we examined the behavioral, neurochemical and neurogenic effects of chronic fluoxetine (FLX) in a mouse model of congenital 5-HT deficiency, the tryptophan hydroxylase 2 (R439H) knock-in (Tph2KI) mouse. Our results demonstrate that congenital 5-HT deficiency prevents a subset of the signature molecular, cellular and behavioral effects of FLX, despite the fact that FLX restores the 5-HT levels of Tph2KI mice to essentially the levels observed in wild-type mice at baseline. These results suggest that inducing supra-physiological levels of 5-HT, not merely reversing 5-HT deficiency, is required for many of the antidepressant-like effects of FLX. We also demonstrate that co-administration of the 5-HT precursor, 5-hydroxytryptophan (5-HTP), along with FLX rescues the novelty suppressed feeding (NSF) anxiolytic-like effect of FLX in Tph2KI mice, despite still failing to induce neurogenesis. Thus, our results indicate that brain 5-HT deficiency reduces the efficacy of FLX and that supplementation with 5-HTP can restore some antidepressant-like responses in the context of 5-HT deficiency. Our findings also suggest that feeding latency reductions in the NSF induced by chronic 5-HT elevation are not mediated by drug-induced increments in neurogenesis in 5-HT-deficient animals. Overall, these findings shed new light on the impact of 5-HT deficiency on responses to FLX and may have important implications for treatment selection in depression and anxiety disorders.     

高分辨率熔解曲线分析技术检测苯丙酮尿症患者的苯丙氨酸羟化酶基因突变

目的 应用高分辨率熔解曲线（HRM）分析技术检测苯丙酮尿症患者苯丙氨酸羟化酶基因突变.方法 利用PCR扩增13例苯丙酮尿症（PKU）患者的苯丙氨酸羟化酶（PAH）基因第6、7、11及12外显子,然后对PCR产物进行HRM分析,通过DNA测序对HRM结果进行验证.结果 在13例PKU患者的26个PAH等位基因中共检测出5种不同突变基因,总检出率为38.5％.常见的突变类型是R243Q和A434D.检测出两种多态性位点为Q232Q和V245V.HRM分析结果与测序结果完全一致.结论 HRM技术具有简单、快速、易操作、准确等优点,可用于PKU患者PAH基因突变筛查.     

Neuroanatomy and neurochemistry of rat cornea: Changes with age

PurposeTo characterize the entire rat corneal nerve architecture, the changes that occur with aging, and its sensory, sympathetic, and parasympathetic fiber distribution.MethodsSprague-Dawley rats (aged 1 day to 2 years old) of both sexes were euthanized, and the whole corneas were immunostained with protein gene product 9.5 (PGP9.5). The specimens were double-labeled with antibodies against calcitonin gene-related peptide (CGRP) and substance P (SP) as sensory nerve markers, vasoactive intestinal peptide (VIP) as a parasympathetic nerve marker, and neuropeptide Y (NPY) and tyrosine hydroxylase (TH) as markers of sympathetic fibers. Relative nerve density positive for each antibody was assessed by computer-assisted image analysis.ResultsThick nerve trunks enter the cornea in the middle of the stroma and run towards the anterior stroma, subsequently dividing into smaller branches that penetrate upwards into the epithelium to form the subbasal nerve bundles. There was no significant difference in corneal innervation between sexes. CGRP and SP were the major sensory neuropeptides with 47.6% ± 3.5% and 34.9% ± 5.1%, respectively, of the total nerves. VIP was 18.4% ± 5.7%, and NPY and TH positive fibers took up 6.92% ± 2.66% and 2.92% ± 1.52%, respectively. Epithelial nerve density increased with age, reached full development at 5 weeks, and decreased at 120 weeks.ConclusionThis study provides a complete nerve architecture and content of components of sensory, parasympathetic, and sympathetic nerves in the rat cornea. The normal innervation pattern described here will provide an essential baseline for investigators who use the rat model for assessing corneal pathologies that involve nerve alterations.     

The Human Neurosecretory Neurones Under Perinatal Hypoxia: A Quantitative Immunohistochemical Study of the Supraoptic Nucleus in Autopsy Material

In the rat, experimental manipulations that cause activation of the magnocellular neurosecretory neurones result in the synthesis, in addition to vasopressin (AVP) and oxytocin (OXY), of other neurotransmitters or peptides, including tyrosine hydroxylase (TH), the first and rate limiting enzyme for catecholamine biosynthesis. In the human neonate, our previous study showed that TH was selectively increased in AVP neurones of subjects that died from prolonged perinatal hypoxia. The purpose of the present study was to quantitatively investigate the expression of TH, AVP, OXY and neurophysin in magnocellular neurones of the human neonate in relation to the severity/duration of perinatal hypoxia, as estimated by neuropathological criteria. Autopsy was performed after obtaining parental written consent for diagnostic and research purposes. The intensity of the immunohistochemical reactions and the cellular/nuclear size were measured in the dorsolateral supraoptic nucleus using a computerised image analysis system. We showed that prolonged perinatal hypoxia resulted in the activation of the magnocellular neuroendocrine neurones of the human neonate, as indicated by their increased neuronal and nuclear size. OXY neurones appeared larger than the AVP ones at birth, possibly indicating an active role of foetal OXY during labour or even earlier. The gradual increase in the duration of the insult resulted in the reduction of intracellular AVP content, in parallel with a dramatic increase in the expression of TH, indicating a functional interaction of these peptides under neuronal activation. Ιsolated evidence in our series, obtained from an infant of a diabetic mother, raises the probability that in the case of hyperglycaemia the above pathogenetic mechanisms are diversified.     

Doxycycline restrains glia and confers neuroprotection in a 6‐OHDA Parkinson model

Neuron–glia interactions play a key role in maintaining and regulating the central nervous system. Glial cells are implicated in the function of dopamine neurons and regulate their survival and resistance to injury. Parkinson's disease is characterized by the loss of dopamine neurons in the substantia nigra pars compacta, decreased striatal dopamine levels and consequent onset of extrapyramidal motor dysfunction. Parkinson's disease is a common chronic, neurodegenerative disorder with no effective protective treatment. In the 6‐OHDA mouse model of Parkinson's disease, doxycycline administered at a dose that both induces/represses conditional transgene expression in the tetracycline system, mitigates the loss of dopaminergic neurons in the substantia nigra compacta and nerve terminals in the striatum. This protective effect was associated with: (1) a reduction of microglia in normal mice as a result of doxycycline administration per se; (2) a decrease in the astrocyte and microglia response to the neurotoxin 6‐OHDA in the globus pallidus and substantia nigra compacta, and (3) the astrocyte reaction in the striatum. Our results suggest that doxycycline blocks 6‐OHDA neurotoxicity in vivo by inhibiting microglial and astrocyte expression. This action of doxycycline in nigrostriatal dopaminergic neuron protection is consistent with a role of glial cells in Parkinson's disease neurodegeneration. The neuroprotective effect of doxycycline may be useful in preventing or slowing the progression of Parkinson's disease and other neurodegenerative diseases linked to glia function.     

Levodopa‐induced dyskinesias in tyrosine hydroxylase deficiency

The objective of this study was to characterize levodopa (l‐ dopa)–induced dyskinesias in patients with tyrosine hydroxylase deficiency. Clinical observation was carried out on 6 patients who were diagnosed with tyrosine hydroxylase deficiency and were treated with escalating doses of l‐ dopa. All 6 patients showed l ‐dopa‐induced dyskinesias of variable intensity early in the course of treatment and regardless of the age of initiation. l ‐Dopa–induced dyskinesias were precipitated by increases in the dose of l ‐dopa and also by febrile illnesses and stress. They caused dysfunction and distress in 2 patients. The dyskinesias were improved by decreasing the l ‐dopa dose or by slowing its titration upward. Increasing the dose frequency was helpful in 2 patients, and introducing amantadine was helpful in another 2 patients. l ‐Dopa–induced dyskinesias are a common phenomenon in tyrosine hydroxylase deficiency. The current observations show that l‐ dopa–induced dyskinesias are frequent in a dopamine‐deficient state in the absence of nigrostriatal degeneration. Although l ‐dopa–induced dyskinesias in tyrosine hydroxylase deficiency are phenomenologically similar to those that occur in Parkinson's disease, they are different in a number of other respects, suggesting intrinsic differences in the pathophysiologic basis of l‐ dopa–induced dyskinesias in the 2 conditions. © 2013 Movement Disorder Society     

Moderate and severe perinatal asphyxia induces differential effects on cocaine sensitization in adult rats

Perinatal asphyxia (PA) increases the likelihood of suffering from dopamine‐related disorders, such as ADHD and schizophrenia. Since dopaminergic transmission plays a major role in cocaine sensitization, the purpose of this study was to determine whether PA could be associated with altered behavioral sensitization to cocaine. To this end, adult rats born vaginally (CTL), by caesarean section (C+), or by C+ with 15 min (PA15, moderate PA) or 19 min (PA19, severe PA) of global anoxia were repeatedly administered with cocaine (i.p., 15 mg/kg) and then challenged with cocaine (i.p., 15 mg/kg) after a 5‐day withdrawal period. In addition, c‐Fos, FosB/ΔFosB, DAT, and TH expression were assessed in dorsal (CPu) and ventral (NAcc) striatum. Results indicated that PA15 rats exhibited an increased locomotor sensitization to cocaine, while PA19 rats displayed an abnormal acquisition of locomotor sensitization and did not express a sensitized response to cocaine. c‐Fos expression in NAcc, but not in CPu, was associated with these alterations in cocaine sensitization. FosB/ΔFosB expression was increased in all groups and regions after repeated cocaine administration, although it reached lower expression levels in PA19 rats. In CTL, C+, and PA15, but not in PA19 rats, the expression of TH in NAcc was reduced in groups repeatedly treated with cocaine, independently of the challenge test. Furthermore, this reduction was more pronounced in PA15 rats. DAT expression remained unaltered in all groups and regions studied. These results suggest that moderate PA may increase the vulnerability to drug abuse and in particular to cocaine addiction. Synapse 67:553–567, 2013. © 2013 Wiley Periodicals, Inc.     

唐山市苯丙酮尿症患儿筛查及PAH基因突变情况分析

摘要：目的　分析唐山市苯丙酮尿症（PKU）患儿筛查结果及苯丙氨酸羟化酶（PAH）基因突变的情况。方法　选取2015年1月—2018年12月唐山市新生儿303 777例,通过茚三酮免疫荧光法检测新生儿足跟血中苯丙氨酸（PA）含量。再利用聚合酶链反应（PCR）和基因测序的方法对筛查出的PKU患儿PAH基因进行检测。结果　303 777例新生儿初步筛查共发现609例可疑阳性,召回其中411例（67.49%）进行复查,确诊42例（13.8/10万）。42例PKU患者的PAH基因测序显示,在84条染色体上共检测到62个（73.81%）12种突变,其中错义突变8种,无义突变2种,缺失突变1种,剪接突变1种。患者PAH基因突变分布在第2、3、6、7、9外显子上,其中第7外显子最多（35个,56.45%）,其次为第3外显子（14个,22.58%）。最常见的突变基因为Exon7-R243Q（18个,29.03%）和Exon3-R111X（10个,16.13%）、Exon7-R261Q（10个,16.13%）。筛查中发现1例典型PKU患儿,该患儿在PAH基因外显子区域同时发现2处杂合突变：c.208-210delTCT（缺失突变）和c.964G＞A（鸟嘌呤＞腺嘌呤）。结论　唐山市新生儿PKU发病率略高于全国,PAH基因突变以错义突变为主,第7外显子是唐山市患儿PAH基因高频突变位点。     

Dopaminergic projections from the VTA substantially contribute to the mesohabenular pathway in the rat

Recent evidence suggests that the lateral habenular complex (LHb) is a source of negative reward signals in midbrain dopaminergic neurons. LHb activity, in turn, is modulated by locally released dopamine, which is largely derived from the ventral tegmental area (VTA) via the mesohabenular pathway. Unfortunately, the presumed importance of this modulation has not been appreciated so far, as its intensity had been largely underestimated in previous reports. Consequently, the present study used contemporary techniques to reexamine the origin of dopaminergic fibers to the LHb. For this purpose, the retrograde tract-tracer gold-coupled wheatgerm agglutinin was injected into the LHb of fourteen rats. Four of these animals providing the most representative information were selected for detailed analysis. In total, 343 retrogradely labeled neurons were detected in the VTAs of these animals. By far most of them were found in the anterior VTA, accumulating in its ventral paramedian fields. About 47% (162) of retrogradely labeled cells displayed tyrosine hydroxylase immunoreactivity, suggesting that almost half of the mesohabenular neurons are dopaminergic. In addition, our data suggest that also incerto-hypothalamic and periventricular neurons contribute dopaminergic terminals to the LHb. The majority of LHb neurons, however, does not project to the origin of the mesohabenular pathway in the anterior VTA. Consequently, there might be no closed VTA-LHb-VTA loop. Instead, our data are in line with the idea that the anterior VTA via its projection to the medial part of the LHb may modulate the information flow from the limbic forebrain to monoaminergic midbrain nuclei.     

Distribution of serotonin 5-HT2C receptors in the ventral tegmental area

Serotonin 2C receptors (5-HT2CR) appear to exert tonic inhibitory influence over dopamine (DA) neurotransmission in the ventral tegmental area (VTA), the origin of the mesolimbic DA system, thought to be important in psychiatric disorders including addiction and schizophrenia. Current literature suggests that the inhibitory influence of 5-HT2CR on DA neurotransmission occurs via indirect activation of GABA inhibitory neurons, rather than via a direct action of 5-HT2CR on DA neurons. The present experiments were performed to establish the distribution of 5-HT2CR protein on DA and GABA neurons in the VTA of male rats via double-label immunofluorescence techniques. The 5-HT2CR protein was found to be co-localized with the GABA synthetic enzyme glutamic acid decarboxylase (GAD), confirming the presence of the 5-HT2CR on GABA neurons within the VTA. The 5-HT2CR immunoreactivity was also present in cells that contained immunoreactivity for tyrosine hydroxylase (TH), the DA synthetic enzyme, validating the localization of 5-HT2CR to DA neurons in the VTA. While the degree of 5-HT2CR+GAD co-localization was similar across the rostro-caudal levels of VTA subnuclei, 5-HT2CR+TH co-localization was highest in the middle relative to rostral and caudal levels of the VTA, particularly in the paranigral, parabrachial, and interfascicular subnuclei. The present results suggest that the inhibitory influence of the 5-HT2CR over DA neurotransmission in the VTA is a multifaceted and complex interplay of 5-HT2CR control of the output of both GABA and DA neurons within this region.