Rhizobium flavescens sp. nov., Isolated from a Chlorothalonil-Contaminated Soil.

A Gram-negative, facultative anaerobic, non-lagellated and rod-shaped bacterium FML-4T was isolated from a chlorothalonil-contaminated soil in Nanjing, China. Phylogenetic analyses of 16S rRNA genes revealed that the strain FML-4T shared the highest sequence similarity of 97.1% with Ciceribacter thiooxidans KCTC 52231T, followed by Rhizobium rosettiformans CCM 7583T (97.0%) and R. daejeonense KCTC 12121T (96.8%). Although the sequence similarities of the housekeeping genes thrC, rceA, glnII, and atpD between strain FML-4T and C. thiooxidans KCTC 52231T were 83.8%, 88.7%, 86.2%, and 92.0%, respectively, strain FML-4T formed a monophyletic clade in the cluster of Rhizobium species. Importantly, the feature gene of the genus Rhizobium, nifH gene (encoding the dinitrogenase reductase), was detected in strain FML-4T but not in C. thiooxidans KCTC 52231T. In addition, strain FML-4T contained the summed feature 8 (C18:1ω7c and/or C18:1ω6c), C19:0 cyclo ω8c and C16:0 as the major fatty acids. Genome sequencing of strain FML-4T revealed a genome size of 7.3 Mbp and a G+C content of 63.0 mol%. Based on the results obtained by phylogenetic and chemotaxonomic analyses, phenotypic characterization, average nucleotide identity (ANI, similarity 77.3-75.4%), and digital DNA-DNA hybridization (dDDH, similarity 24.5-22.3%), it was concluded that strain FML-4T represented a novel species of the genus Rhizobium, for which the name Rhizobium flavescens sp. nov. was proposed (type strain FML-4T = CCTCC AB 2019354T = KCTC 62839T).

Sphingomonas flavalba sp. nov., isolated from a procymidone-contaminated soil.

A novel Gram-stain-negative, strictly aerobic, non-spore-forming, motile with one polar flagellum and short rod-shaped bacterium, designated strain ZLT-5T, was isolated from procymidone-contaminated soil sampled in Nanjing, Jiangsu, PR China. Growth occurred at 26-37 °C (optimum, 37 °C), at pH 6.0-9.0 (pH 7.0) and in the presence of 0-1.5 % NaCl (0.5 %). Phylogenetic analysis based on the 16S rRNA gene sequences showed that strain ZLT-5T belonged to the genus Sphingomonas, with the highest sequence similarity to Sphingomonas kyeonggiensis THG-DT81T (96.6 %), followed by Sphingomonas dokdonensis DSM 21029T (96.5 %) and Sphingomonas silvisoli RP18T (96.3 %). The G+C content of strain ZLT-5T was 68.0 mol% (draft genome sequence). The average nucleotide identity value of the draft genomes between strain ZLT-5T and S. kyeonggiensis THG-DT81T was 75.4 %. Strain ZLT-5T contained ubiquinone-10 as the predominant isoprenoid quinone and sym-homospermidine as the major polyamine. The major polar lipids consisted of diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, phosphatidylcholine, phosphoaminolipid and sphingoglycolipid. The main cellular fatty acids (>10 % of the total fatty acids) of strain ZLT-5T were C17 : 1ω6c, summed feature 3 (C16 : 1ω7c and/or C15 : 0 ISO 2-OH) and summed feature 8 (C18 : 1ω7c and/or C18 : 1ω6c). Based on phylogenetic analysis and physiological and biochemical characterization, strain ZLT-5T is described as a novel species of the genus Sphingomonas, for which the name Sphingomonas flavalba sp. nov. is proposed. The type strain is ZLT-5T (=CCTCC AB 2018188T=KCTC 62840T).

Spirosoma sordidisoli sp. nov., a propanil-degrading bacterium isolated from a herbicide-contaminated soil.

A novel Gram-stain negative, aerobic, rod-shaped, asporogenous, propanil-degrading bacterial strain, TY50T, was isolated from a herbicide-contaminated soil in Nanjing, China. Strain TY50T was found to grow optimally at pH 9.0, 30 °C and in the absence of NaCl. The G + C content of the total DNA was determined to be 55.5 mol%. The 16S rRNA gene sequence of strain TY50T shows high identity to that of Spirosoma lacussanchae CPCC 100624T (99.3%), Spirosoma metallicum PR1014kT (94.8%) and Spirosoma soli MIMBbqt12T (94.6%). DNA-DNA hybridization indicated that the isolate had relatively low levels of DNA-DNA relatedness with S. lacussanchae CPCC 100624T (48.3%). Average nucleotide identity and the digital DNA-DNA hybridizations for draft genomes between strain TY50T and S. lacussanchae CPCC 100624T were 93.2% and 51.0%, respectively. The major cellular fatty acids of strain TY50T were identified as C16:1ω5c (24.5%) and summed feature 3 (C16:1ω6c/C16:1ω7c, 40.7%). MK-7 was found to be the predominant respiratory quinone. The major polar lipid profile includes phosphatidylethanolamine, an unidentified lipid and an unidentified aminolipid. These chemotaxonomic data support the affiliation of strain TY50T with the members of the genus Spirosoma. Strain TY50T can be distinguished from its close phylogenetic neighbours based on its phenotypic, genotypic, and chemotaxonomic features. Therefore, strain TY50T represents a novel member of the genus Spirosoma, for which the name Spirosoma sordidisoli sp. nov. is proposed. The type strain is TY50T (= KCTC 62494T = CCTCC AB 2018041T).

A glutamatergic DRN-VTA pathway modulates neuropathic pain and comorbid anhedonia-like behavior in mice.

Chronic pain causes both physical suffering and comorbid mental symptoms such as anhedonia. However, the neural circuits and molecular mechanisms underlying these maladaptive behaviors remain elusive. Here using a mouse model, we report a pathway from vesicular glutamate transporter 3 neurons in the dorsal raphe nucleus to dopamine neurons in the ventral tegmental area (VGluT3DRN→DAVTA) wherein population-level activity in response to innocuous mechanical stimuli and sucrose consumption is inhibited by chronic neuropathic pain. Mechanistically, neuropathic pain dampens VGluT3DRN → DAVTA glutamatergic transmission and DAVTA neural excitability. VGluT3DRN → DAVTA activation alleviates neuropathic pain and comorbid anhedonia-like behavior (CAB) by releasing glutamate, which subsequently promotes DA release in the nucleus accumbens medial shell (NAcMed) and produces analgesic and anti-anhedonia effects via D2 and D1 receptors, respectively. In addition, VGluT3DRN → DAVTA inhibition produces pain-like reflexive hypersensitivity and anhedonia-like behavior in intact mice. These findings reveal a crucial role for VGluT3DRN → DAVTA → D2/D1NAcMed pathway in establishing and modulating chronic pain and CAB.

The T-Type Calcium Channel Cav3.2 in Somatostatin Interneurons in Spinal Dorsal Horn Participates in Mechanosensation and Mechanical Allodynia in Mice.

Somatostatin-positive (SOM+) neurons have been proposed as one of the key populations of excitatory interneurons in the spinal dorsal horn involved in mechanical pain. However, the molecular mechanism for their role in pain modulation remains unknown. Here, we showed that the T-type calcium channel Cav3.2 was highly expressed in spinal SOM+ interneurons. Colocalization of Cacna1h (which codes for Cav3.2) and SOM tdTomato was observed in the in situ hybridization studies. Fluorescence-activated cell sorting of SOM tdTomato cells in spinal dorsal horn also proved a high expression of Cacna1h in SOM+ neurons. Behaviorally, virus-mediated knockdown of Cacna1h in spinal SOM+ neurons reduced the sensitivity to light touch and responsiveness to noxious mechanical stimuli in naïve mice. Furthermore, knockdown of Cacna1h in spinal SOM+ neurons attenuated thermal hyperalgesia and dynamic allodynia in the complete Freund's adjuvant-induced inflammatory pain model, and reduced both dynamic and static allodynia in a neuropathic pain model of spared nerve injury. Mechanistically, a decrease in the percentage of neurons with Aß-eEPSCs and Aß-eAPs in superficial dorsal horn was observed after Cacna1h knockdown in spinal SOM+ neurons. Altogether, our results proved a crucial role of Cav3.2 in spinal SOM+ neurons in mechanosensation under basal conditions and in mechanical allodynia under pathological pain conditions. This work reveals a molecular basis for SOM+ neurons in transmitting mechanical pain and shows a functional role of Cav3.2 in tactile and pain processing at the level of spinal cord in addition to its well-established peripheral role.

Parallel Spinal Pathways for Transmitting Reflexive and Affective Dimensions of Nocifensive Behaviors Evoked by Selective Activation of the Mas-Related G Protein-Coupled Receptor D-Positive and Transient Receptor Potential Vanilloid 1-Positive Subsets of Nociceptors.

The high incidence of treatment-resistant pain calls for the urgent preclinical translation of new analgesics. Understanding the behavioral readout of pain in animals is crucial for efficacy evaluation when developing novel analgesics. Mas-related G protein-coupled receptor D-positive (Mrgprd+) and transient receptor potential vanilloid 1-positive (TRPV1+) sensory neurons are two major non-overlapping subpopulations of C-fiber nociceptors. Their activation has been reported to provoke diverse nocifensive behaviors. However, what kind of behavior reliably represents subjectively conscious pain perception needs to be revisited. Here, we generated transgenic mice in which Mrgprd+ or TRPV1+ sensory neurons specifically express channelrhodopsin-2 (ChR2). Under physiological conditions, optogenetic activation of hindpaw Mrgprd+ afferents evoked reflexive behaviors (lifting, etc.), but failed to produce aversion. In contrast, TRPV1+ afferents activation evoked marked reflexive behaviors and affective responses (licking, etc.), as well as robust aversion. Under neuropathic pain conditions induced by spared nerve injury (SNI), affective behaviors and avoidance can be elicited by Mrgprd+ afferents excitation. Mechanistically, spinal cord-lateral parabrachial nucleus (lPBN) projecting neurons in superficial layers (lamina I-II o ) were activated by TRPV1+ nociceptors in naïve conditions or by Mrgprd+ nociceptors after SNI, whereas only deep spinal cord neurons were activated by Mrgprd+ nociceptors in naïve conditions. Moreover, the excitatory inputs from Mrgprd+ afferents to neurons within inner lamina II (II i ) are partially gated under normal conditions. Altogether, we conclude that optogenetic activation of the adult Mrgprd+ nociceptors drives non-pain-like reflexive behaviors via the deep spinal cord pathway under physiological conditions and drives pain-like affective behaviors via superficial spinal cord pathway under pathological conditions. The distinct spinal pathway transmitting different forms of nocifensive behaviors provides different therapeutic targets. Moreover, this study appeals to the rational evaluation of preclinical analgesic efficacy by using comprehensive and suitable behavioral assays, as well as by assessing neural activity in the two distinct pathways.

Nerve autografts and tissue-engineered materials for the repair of peripheral nerve injuries: a 5-year bibliometric analysis.

With advances in biomedical methods, tissue-engineered materials have developed rapidly as an alternative to nerve autografts for the repair of peripheral nerve injuries. However, the materials selected for use in the repair of peripheral nerve injuries, in particular multiple injuries and large-gap defects, must be chosen carefully. Various methods and materials for protecting the healthy tissue and repairing peripheral nerve injuries have been described, and each method or material has advantages and disadvantages. Recently, a large amount of research has been focused on tissue-engineered materials for the repair of peripheral nerve injuries. Using the keywords "pe-ripheral nerve injury", "autotransplant", "nerve graft", and "biomaterial", we retrieved publications using tissue-engineered materials for the repair of peripheral nerve injuries appearing in the Web of Science from 2010 to 2014. The country with the most total publications was the USA. The institutions that were the most productive in this field include Hannover Medical School (Germany), Washington University (USA), and Nantong University (China). The total number of publications using tissue-engineered materials for the repair of peripheral nerve injuries grad-ually increased over time, as did the number of Chinese publications, suggesting that China has made many scientific contributions to this field of research.

Bibliometric profile of neurogenic bladder in the literature: a 20-year bibliometric analysis.

Neurogenic bladder is a dysfunction of the lower urinary tract caused by nervous system disorder. We investigated the trends in publication of articles under the topic "neurogenic bladder" using bibliometric analysis. Articles on neurogenic bladder, published between 1995 and 2014, were retrieved from the ISI Web of Science citation database. We analyzed the search results for authors, countries, institutions, journals, and top-cited papers. A total of 1,904 articles were retrieved. There was a small increase in the number of articles on neurogenic bladder from 1995 (n = 43) to 2014 (n = 117). The USA was the leading country in the total number of articles (n = 598). However, the number of publications from China has rapidly increased, and China was ranked second in 2014. Emmanuel Chartier-Kastler (n = 65) was the most productive author, and University of Paris VI (Paris 6) (n = 61) was the most productive institution. The Journal of Urology published the greatest number of articles on this topic (n = 285). Articles on neurogenic bladder were often published in a professional journal under the category Urology & Nephrology, Neurosciences & Neurology, or Rehabilitation. Visualization analysis based on co-citation networks was conducted using CiteSpace III. Visualization analysis revealed that the hot spots in neurogenic bladder were botulinum toxin-A, prazosin, bethanechol, and afferent pathways. These findings provide new insight into the publication trends and hot spots in neurogenic bladder.