Your search keyword '"Hatanaka, N."' showing total 10 results

1. Campylobacter fetus isolates from both human patients and healthy cattle carry three distinct cytolethal distending toxin (cdt) gene clusters.

Author

Wen W, Hatanaka N, Somroop S, Awasthi SP, Hinenoya A, and Yamasaki S

Subjects

Animals, Cattle, Humans, Cattle Diseases microbiology, Multilocus Sequence Typing veterinary, Campylobacter fetus genetics, Campylobacter fetus isolation & purification, Campylobacter Infections veterinary, Campylobacter Infections microbiology, Bacterial Toxins genetics, Multigene Family

Abstract

Campylobacter fetus is a zoonotic pathogen. Although the precise virulence mechanisms have not yet been fully elucidated, cytolethal distending toxin (CDT) is considered as one of the well-characterized virulence factors in Campylobacter. In silico analysis of the genome of C. fetus type strain ATCC27374 T indicates that there are three cdt gene clusters, Cfcdt-I, Cfcdt-II and Cfcdt-III. However, it is not clear whether these clusters are ubiquitously present in C. fetus and their association with diseases in humans and animals. In this study, we have analyzed the distribution and nucleotide sequences of these cdt gene clusters in 137 C. fetus strains isolated from human patients and healthy cattle. MLST and PFGE were also applied to determine clonal relationship between C. fetus strains isolated from patients and cattle. We found all C. fetus strains carry three Cfcdt gene clusters by colony hybridization assay and the strains belonged to 38 different pulsotypes. Whole genome sequencing of 38 C. fetus strains was carried out to determine the entire cdt gene cluster sequences and their sequence type (ST). Among 38 strains, six STs were identified, and each cdt gene cluster showed high similarity (>99%). Interestingly, some of these Cfcdt genes are more similar to the cdt genes of other Campylobacter species than other Cfcdt gene types. Altogether, the results suggest that three Cfcdt gene clusters are highly conserved in C. fetus and the strains belonging to ST-6 may be more pathogenic to human.

Published

2024

2. A plasmid-mediated type III secretion system associated with invasiveness and diarrheagenicity of Providencia rustigianii .

Author

Hassan J, Hinenoya A, Hatanaka N, Awasthi SP, Manjunath GB, Rahman N, Yamate J, Nakamura S, Motooka D, Nagita A, Faruque SM, and Yamasaki S

Subjects

Humans, Animals, HeLa Cells, Rabbits, Diarrhea microbiology, Genome, Bacterial, Whole Genome Sequencing, Virulence Factors genetics, Virulence genetics, Conjugation, Genetic, Gene Transfer, Horizontal, Providencia genetics, Providencia metabolism, Providencia pathogenicity, Plasmids genetics, Type III Secretion Systems genetics, Type III Secretion Systems metabolism, Bacterial Toxins genetics, Bacterial Toxins metabolism, Enterobacteriaceae Infections microbiology

Abstract

We have recently described a clinical isolate of Providencia rustigianii strain JH-1 carrying the genes for cytolethal distending toxin (CDT) in a conjugative plasmid. A cdtB mutant of strain JH-1, which lost CDT activity, was still found to retain invasiveness and diarrheagenicity. The strain was subjected to phenotypic and genetic analyses including whole genome sequencing (WGS) to explore the genetic determinants of the observed invasiveness and diarrheagenic properties. Analysis and annotation of WGS data revealed the presence of two distinct type III secretion systems (T3SS) in strain JH-1, one of which was located on the chromosome designated as cT3SS (3,992,833 bp) and the other on a mega-plasmid designated as pT3SS (168,819 bp). Comparative genomic analysis revealed that cT3SS is generally conserved in Providencia spp. but pT3SS was limited to a subset of Providencia spp., carrying cdt genes. Strain JH-1 was found to invade HeLa cells and induce fluid accumulation with characteristic pathological lesions in rabbit ileal loops. Remarkably, these phenomena were associated with the pT3SS but not cT3SS. The plasmid could be transferred by conjugation from strain JH-1 to other strains of P. rustigianii , Providencia rettgeri , and Escherichia coli with concomitant transfer of these virulence properties. This is the first report of a functional and mobile T3SS in P. rustigianii and its association with invasiveness and diarrheagenicity of this bacterium. These data suggest that P. rustigianii and other CDT-producing Providencia strains might carry T3SS and exert their diarrheagenic effect by exploiting the T3SS nano-machinery.IMPORTANCEThe precise mechanism of virulence of Providencia rustigianii is unclear, although some strains produce cytolethal distending toxin as a putative virulence factor. We have detected the presence of a type III secretion system (T3SS) for the first time on a plasmid in a P. rustigianii strain. Plasmid-mediated T3SS seems to be directly involved in virulence of P. rustigianii and may serve as a means of horizontal transfer of T3SS genes. Our results may have implication in understanding the mechanism of emergence of new pathogenic strains of P. rustigianii ., Competing Interests: The authors declare no conflict of interest.

Published

2024

3. Anti-leucine-rich Glioma-inactivated 1 Encephalitis Manifesting as Frequent Ictal Pouting and Subtle Memory Disturbance.

Author

Araki T, Yoshimura H, Tsuchida K, Hatanaka N, and Kawamoto M

Abstract

Anti-leucine-rich glioma-inactivated 1 (LGI1) encephalitis is a treatable form of limbic encephalitis, marked by frequent focal seizures and cognitive decline (particularly memory disturbance); however, it can be difficult to diagnose in patients with subtle cognitive decline. Ictal pouting, a rare seizure feature, has not yet been reported in anti-LGI1 encephalitis. A 73-year-old man with anti-LGI1 encephalitis presented with subacute onset of frequent ictal pouting without apparent cognitive decline. Steroid treatment alone resolved seizures and improved subtle visual memory. Middle-aged and older patients experiencing subacute-onset frequent focal seizures should be thoroughly evaluated for memory disturbances to determine the need for anti-LGI1 antibody measurement.

Published

2024

4. Promoters Constrain Evolution of Expression Levels of Essential Genes in Escherichia coli.

Author

Tsuru S, Hatanaka N, and Furusawa C

Subjects

Selection, Genetic, Gene Expression Regulation, Bacterial, Genetic Fitness, Escherichia coli genetics, Promoter Regions, Genetic, Genes, Essential, Evolution, Molecular, Mutation

Abstract

Variability in expression levels in response to random genomic mutations varies among genes, influencing both the facilitation and constraint of phenotypic evolution in organisms. Despite its importance, both the underlying mechanisms and evolutionary origins of this variability remain largely unknown due to the mixed contributions of cis- and trans-acting elements. To address this issue, we focused on the mutational variability of cis-acting elements, that is, promoter regions, in Escherichia coli. Random mutations were introduced into the natural and synthetic promoters to generate mutant promoter libraries. By comparing the variance in promoter activity of these mutant libraries, we found no significant difference in mutational variability in promoter activity between promoter groups, suggesting the absence of a signature of natural selection for mutational robustness. In contrast, the promoters controlling essential genes exhibited a remarkable bias in mutational variability, with mutants displaying higher activities than the wild types being relatively rare compared to those with lower activities. Our evolutionary simulation on a rugged fitness landscape provided a rationale for this vulnerability. These findings suggest that past selection created nonuniform mutational variability in promoters biased toward lower activities of random mutants, which now constrains the future evolution of downstream essential genes toward higher expression levels., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

5. QcrC is a potential target for antibody therapy and vaccination to control Campylobacter jejuni infection by suppressing its energy metabolism.

Author

Hosomi K, Hatanaka N, Hinenoya A, Adachi J, Tojima Y, Furuta M, Uchiyama K, Morita M, Nagatake T, Saika A, Kawai S, Yoshii K, Kondo S, Yamasaki S, and Kunisawa J

Abstract

Introduction: Campylobacter spp. are a public health concern, yet there is still no effective vaccine or medicine available., Methods: Here, we developed a Campylobacter jejuni -specific antibody and found that it targeted a menaquinol cytochrome c reductase complex QcrC., Results: The antibody was specifically reactive to multiple C. jejuni strains including clinical isolates from patients with acute enteritis and was found to inhibit the energy metabolism and growth of C. jejuni . Different culture conditions produced different expression levels of QcrC in C. jejuni , and these levels were closely related not only to the energy metabolism of C. jejuni but also its pathogenicity. Furthermore, immunization of mice with recombinant QcrC induced protective immunity against C. jejuni infection., Discussion: Taken together, our present findings highlight a possible antibody- or vaccination-based strategy to prevent or control Campylobacter infection by targeting the QcrC-mediated metabolic pathway., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Hosomi, Hatanaka, Hinenoya, Adachi, Tojima, Furuta, Uchiyama, Morita, Nagatake, Saika, Kawai, Yoshii, Kondo, Yamasaki and Kunisawa.)

Published

2024

6. [Dynamic activity model of movement disorders: a unified view to understand their pathophysiology].

Author

Nambu A, Chiken S, Sano H, Hatanaka N, and Obeso JA

Subjects

Humans, Animals, Mice, Basal Ganglia physiopathology, Disease Models, Animal, Parkinson Disease physiopathology, Movement Disorders physiopathology, Movement Disorders etiology

Abstract

Malfunction of the basal ganglia leads to movement disorders such as Parkinson's disease, dystonia, Huntington's disease, dyskinesia, and hemiballism, but their underlying pathophysiology is still subject to debate. To understand their pathophysiology in a unified manner, we propose the "dynamic activity model", on the basis of alterations of cortically induced responses in individual nuclei of the basal ganglia. In the normal state, electric stimulation in the motor cortex, mimicking cortical activity during initiation of voluntary movements, evokes a triphasic response consisting of early excitation, inhibition, and late excitation in the output stations of the basal ganglia of monkeys, rodents, and humans. Among three components, cortically induced inhibition, which is mediated by the direct pathway, releases an appropriate movement at an appropriate time by disinhibiting thalamic and cortical activity, whereas early and late excitation, which is mediated by the hyperdirect and indirect pathways, resets on-going cortical activity and stops movements, respectively. Cortically induced triphasic response patterns are systematically altered in various movement disorder models and could well explain the pathophysiology of their motor symptoms. In monkey and mouse models of Parkinson's disease, cortically induced inhibition is reduced and prevents the release of movements, resulting in akinesia/bradykinesia. On the other hand, in a mouse model of dystonia, cortically induced inhibition is enhanced and releases unintended movements, inducing involuntary muscle contractions. Moreover, after blocking the subthalamic nucleus activity in a monkey model of Parkinson's disease, cortically induced inhibition is recovered and enables voluntary movements, explaining the underlying mechanism of stereotactic surgery to ameliorate parkinsonian motor signs. The "dynamic activity model" gives us a more comprehensive view of the pathophysiology underlying motor symptoms of movement disorders and clues for their novel therapies.

Published

2024

7. Detection of prolong excretion of Escherichia albertii in stool specimens of a 7-year-old child by a newly developed Eacdt gene-based quantitative real-time PCR method and molecular characterization of the isolates.

Author

Awasthi SP, Nagita A, Hatanaka N, Hassan J, Xu B, Hinenoya A, and Yamasaki S

Abstract

Escherichia albertii is an emerging zoonotic foodborne pathogen . The clinical significance of this bacterium has increasingly been recognized worldwide. However, diagnostic method has not yet been established and its clinical manifestations are not fully understood. Here, we show that an Eacdt gene-based quantitative real-time PCR (qRT-PCR) developed in this study is 100% specific and sensitive when tested with 39  E. albertii and 36 non- E. albertii strains, respectively. Detection limit of the real-time PCR was 10 colony forming unit (CFU) and 1 pg of genomic DNA per PCR tube. When E. albertii was spiked with 4 × 10 0 -10 6  CFU per mL to stool of healthy person, detection limit was 4.0 × 10 3 and 4.0 CFU per mL before and after enrichment culture, respectively. Moreover, the qRT-PCR was able to detect E. albertii in five children out of 246 (2%) but none from 142 adults suffering from gastroenteritis. All five E. albertii strains isolated carried eae and paa genes, however, only one strain harbored stx2f genes. Long-term shedding of stx2f gene-positive E. albertii in a child stool could be detected because of the qRT-PCR developed in this study which might have been missed if only conventional PCR and culture methods were employed. Furthermore, E. albertii isolated from siblings with diarrhea showed clonality by PFGE analysis. Taken together, these data suggest that the Eacdt gene-based qRT-PCR developed for the detection of E. albertii is useful and will assist in determining the real burden and clinical manifestation of E. albertii infections., Competing Interests: Shinji Yamasaki reports financial support was provided by 10.13039/501100001691Japan Society for the Promotion of Science. Shinji Yamasaki reports a relationship with Sakura Cooperation that includes: consulting or advisory. Shinji Yamasaki has patent pending to Detection of Escherichia albertii. None If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

8. Subthalamic Activity for Motor Execution and Cancelation in Monkeys.

Author

Polyakova Z, Hatanaka N, Chiken S, and Nambu A

Subjects

Male, Female, Animals, Haplorhini, Basal Ganglia, Neurons physiology, Subthalamic Nucleus physiology, Motor Cortex physiology

Abstract

The subthalamic nucleus (STN) receives cortical inputs via the hyperdirect and indirect pathways, projects to the output nuclei of the basal ganglia, and plays a critical role in the control of voluntary movements and movement disorders. STN neurons change their activity during execution of movements, while recent studies emphasize STN activity specific to cancelation of movements. To address the relationship between execution and cancelation functions, we examined STN activity in two Japanese monkeys ( Macaca fuscata , both sexes) who performed a goal-directed reaching task with a delay that included Go, Cancel, and NoGo trials. We first examined responses to the stimulation of the forelimb regions in the primary motor cortex and/or supplementary motor area. STN neurons with motor cortical inputs were found in the dorsal somatomotor region of the STN. All these STN neurons showed activity changes in Go trials, suggesting their involvement in execution of movements. Part of them exhibited activity changes in Cancel trials and sustained activity during delay periods, suggesting their involvement in cancelation of planed movements and preparation of movements, respectively. The STN neurons rarely showed activity changes in NoGo trials. Go- and Cancel-related activity was selective to the direction of movements, and the selectivity was higher in Cancel trials than in Go trials. Changes in Go- and Cancel-related activity occurred early enough to initiate and cancel movements, respectively. These results suggest that the dorsal somatomotor region of the STN, which receives motor cortical inputs, is involved in preparation and execution of movements and cancelation of planned movements., Competing Interests: The authors declare no conflict of interest., (Copyright © 2024 the authors.)

Published

2024

9. Development and Evaluation of "The Delta Plus-Minus Even Distribution Check": A Novel Patient-Based Real-Time Quality Control Method for Laboratory Tests.

Author

Hatanaka N, Yamamoto Y, Shiozaki Y, Kuramura E, Nagai N, Kondo A, and Kamioka M

Subjects

Humans, Quality Control, Albumins

Abstract

Background: Laboratory testing of large sample numbers necessitates high-volume rapid processing, and these test results require immediate validation and a high level of quality assurance. Therefore, real-time quality control including delta checking is an important issue. Delta checking is a process of identifying errors in individual patient results by reviewing differences from previous results of the same patient (Δ value). Under stable analytical conditions, Δ values are equally positively and negatively distributed., Methods: The previous 20 Δ values from 3 tests (cholesterol, albumin, and urea nitrogen) were analyzed by calculating the R-value: "the positive Δ value ratio minus 0.5." This method of monitoring optimized R-values is referred to as the even-check method (ECM) and was compared with quality control (QC) testing in terms of error detection., Results: Bias was observed on 4 of the 120 days for the 3 analytes measured. When QC detected errors, the ECM captured the same systematic errors and more rapidly. In contrast, the ECM did not generate an alarm for the one random error that occurred in QC. While QC did not detect any errors, the percentage of R-values exceeding the acceptable range was under 2%, the number of days generating alarms was between 16 and 21 days, with short alarm periods, and a median number of samples per alarm period between 7 and 9 samples., Conclusions: The ECM is a practical real-time QC method, controlled by setting R-value conditions, that quickly detects bias values., (© Association for Diagnostics & Laboratory Medicine 2024. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2024

10. Seasonality of detection rate of Escherichia albertii in wild raccoons (Procyon lotor) in Osaka, Japan.

Author

Xu B, Hatanaka N, Awasthi SP, Hinenoya A, and Yamasaki S

Subjects

Animals, Japan epidemiology, Seasons, Raccoons, Escherichia

Abstract

Escherichia albertii has increasingly been recognized as an important emerging zoonotic enteropathogen. Raccoon is shown to be one of the most vital reservoirs of this pathogen. E. albertii has been detected in 993 (62%) out of 1,606 wild raccoons in Osaka, Japan from 2017 to 2020 by Eacdt-PCR. The detection rate of E. albertii was increased from May to December (winter) and gradually decreased from January to April (spring). Furthermore, we could isolate E. albertii from 30% (196/664) of Eacdt-PCR positive samples and the monthly isolation rate seems to correlate with its detection rate. These data indicate that there is a seasonality regarding the prevalence of E. albertii in wild raccoon being higher in winter and lower in spring.

Published

2024