cell association
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2021 ◽  
Author(s):  
◽  
Gabrielle Greig

<p>Neisseria meningitidis virulence is polygenic, therefore comparing many genomes may not yield strictly disease-associated virulence factors. An alternative approach is comparing closely related isolates, such as those from household contacts. Disease isolates have been shown to inhibit epithelial cell wound repair, while many carriage isolates do not. In this study, bacteria collected from disease patients and healthy household contacts were compared to identify the meningococcal factor responsible for wound repair inhibition and investigate how it contributes to invasive disease. Host cell wound repair inhibition was compared between disease-associated meningococcal isolate, NZ97/052, and isolates NZCM111 and NZCM112, from asymptomatic household contacts. Migrating bronchial airway cells were infected with meningococcal isolates and wound closure was evaluated by microscopy. NZ97/052 and NZCM111 both inhibited wound repair, whereas NZCM112 did not. To investigate if this was due to bacterial consumption of an important nutrient, infected cells were supplemented with nutrients known to be important for meningococcal growth and cell migration. Iron supplementation resulted in carriage associated isolates gaining the ability to inhibit wound repair. Genome and transcriptome comparisons were completed between NZ97/052 and NZCM112, which differ in wound repair inhibition. This analysis identified a frameshift mutation in NZCM112 in the haptoglobin-haemoglobin utilization gene, hpuA, which caused complete loss of expression. The hpuA gene was deleted by allelic replacement from NZ97/052, nullifying its ability to inhibit host cell migration. Furthermore, bacterial association and fluorescence microscopy assays suggested that HpuA contributes to meningococcal attachment to bronchial epithelial cells, as the hpuA mutant had significantly lower cell association. Heterologous expression of HpuA in E. coli resulted in higher levels of cell association, indicating that HpuA is sufficient to mediate bacterial adhesion to human bronchial epithelial cells. This work reveals novel roles for HpuA as a meningococcal adhesin and a bacterial factor that inhibits host cell migration.</p>


2021 ◽  
Author(s):  
◽  
Gabrielle Greig

<p>Neisseria meningitidis virulence is polygenic, therefore comparing many genomes may not yield strictly disease-associated virulence factors. An alternative approach is comparing closely related isolates, such as those from household contacts. Disease isolates have been shown to inhibit epithelial cell wound repair, while many carriage isolates do not. In this study, bacteria collected from disease patients and healthy household contacts were compared to identify the meningococcal factor responsible for wound repair inhibition and investigate how it contributes to invasive disease. Host cell wound repair inhibition was compared between disease-associated meningococcal isolate, NZ97/052, and isolates NZCM111 and NZCM112, from asymptomatic household contacts. Migrating bronchial airway cells were infected with meningococcal isolates and wound closure was evaluated by microscopy. NZ97/052 and NZCM111 both inhibited wound repair, whereas NZCM112 did not. To investigate if this was due to bacterial consumption of an important nutrient, infected cells were supplemented with nutrients known to be important for meningococcal growth and cell migration. Iron supplementation resulted in carriage associated isolates gaining the ability to inhibit wound repair. Genome and transcriptome comparisons were completed between NZ97/052 and NZCM112, which differ in wound repair inhibition. This analysis identified a frameshift mutation in NZCM112 in the haptoglobin-haemoglobin utilization gene, hpuA, which caused complete loss of expression. The hpuA gene was deleted by allelic replacement from NZ97/052, nullifying its ability to inhibit host cell migration. Furthermore, bacterial association and fluorescence microscopy assays suggested that HpuA contributes to meningococcal attachment to bronchial epithelial cells, as the hpuA mutant had significantly lower cell association. Heterologous expression of HpuA in E. coli resulted in higher levels of cell association, indicating that HpuA is sufficient to mediate bacterial adhesion to human bronchial epithelial cells. This work reveals novel roles for HpuA as a meningococcal adhesin and a bacterial factor that inhibits host cell migration.</p>


2021 ◽  
Vol 2021 ◽  
pp. 1-14
Author(s):  
Huilin Jiang ◽  
Wenxiang Zhu ◽  
Xiang Song ◽  
Guilu Wu

This paper studies the energy efficiency optimization problem for coordinated multipoint (CoMP)-enabled and backhaul-constrained ultra-dense small-cell networks (UDNs). Energy efficiency is an eternal topic for future wireless communication networks; however, taking actual bottleneck of the backhaul link and the coordinated network architecture into consideration, it is difficult to find an effective way to improve the energy efficiency of the network. Aiming at this problem, we propose to combine cell association, subchannel allocation, backhaul resource allocation, and sleep/on of the cells together to develop an optimization algorithm for energy efficiency in UDN and then solve the formulated energy efficiency optimization problem by means of improved modified particle swarm optimization (IMPSO) and linear programming in mathematics. Simulation results indicate that nearly 13 % energy cost saving and 21 % energy efficiency improvement can be obtained by combining IMPSO with linear programming, and the backhaul link data rate can be improved by 30 % as the number of small cells increases. From the results, it can be found that by combining IMPSO with linear programming, the proposed algorithm can improve the network energy efficiency effectively at the expense of limited complexity.


Biology ◽  
2021 ◽  
Vol 10 (10) ◽  
pp. 993
Author(s):  
Richa Chaturvedi ◽  
Yumin Kang ◽  
Yunji Eom ◽  
Sri Ramulu Torati ◽  
CheolGi Kim

The early removal of drug delivery agents before reaching the affected target remains an area of interest to researchers. Several magnetotactic bacteria (MTB) have been used as self-propelled drug delivery agents, and they can also be controlled by an external magnetic field. By attaching the PEG–biotin polymer, the bacteria are turned into a stealth material that can escape from the phagocytosis process and reach the area of interest with the drug load. In the study, we developed a potential drug carrier by attaching the PEG–biotin to the MTB-through-NHS crosslinker to form a MTB/PEG–biotin complex. The attachment stability, efficacy, and bacterial viability upon attachment of the PEG–biotin polymer were investigated. Biological applications were carried out using a cytotoxicity assay of THP-1 cells, and the results indicate that the MTB/PEG–biotin complex is less harmful to cell viability compared to MTB alone. Along with cytotoxicity, an assay for cell association was also evaluated to assess the complex as a potential stealth material. The development of these complexes focuses on an easy, time-saving, and stable technique of polymer attachment with the bacteria, without damaging the cell’s surface, so as to make it a strong and reliable delivery agent.


Author(s):  
Muhammad Ihsan Ur Rehman ◽  
Muhammad Qasim ◽  
Abdul Wakeel ◽  
Mehmood Alam ◽  
Mir Yasir Umair

The demand of high data rate and ubiquitous coverage in heterogeneous cellular (HetNets) is increasing progressively. In order to meet this demand, sophisticated model having applied interference reduction scheme and cell association technique is needed. The small base station (sBS)are deployed inside the broadcasting area of macro base station (mBS), in heterogeneous cellular networks (HetNets). Since mBS has high transmission power therefore a large number of users get connected with mBS. This causes disproportion of load distribution across the HetNets. For load balancing users from high power mBS are migrated to low power sBS to increase network capacity and to decrease the load from mBS. This results in interference in the communication signal because of strong mBS Interference. Hence, we need interference management technique to mitigate interference and user association and to efficiently use sBSs&rsquo; resources. Inter-cell interference (ICI) limit the HetNets&rsquo; performance. Additionally, there exist deliberate jamming interference which depends on jammers transmission power and its proximity with the target, which notably degrades the network performance. In this paper, we employ reverse frequency allocation scheme (RFA) to reduce inter cell interference, deliberate jamming interference and to accomplish load balancing. The proposed setup is analyzed inquisitively and with the help of simulations. The result shows reduction in interferences as well as balance of load distribution in the network achieved by employing RFA scheme together with cell association.


2021 ◽  
Vol 22 (12) ◽  
pp. 6233
Author(s):  
Sebastián Acosta-Jurado ◽  
Francisco Fuentes-Romero ◽  
Jose-Enrique Ruiz-Sainz ◽  
Monika Janczarek ◽  
José-María Vinardell

Rhizobia are soil proteobacteria able to engage in a nitrogen-fixing symbiotic interaction with legumes that involves the rhizobial infection of roots and the bacterial invasion of new organs formed by the plant in response to the presence of appropriate bacterial partners. This interaction relies on a complex molecular dialogue between both symbionts. Bacterial N-acetyl-glucosamine oligomers called Nod factors are indispensable in most cases for early steps of the symbiotic interaction. In addition, different rhizobial surface polysaccharides, such as exopolysaccharides (EPS), may also be symbiotically relevant. EPS are acidic polysaccharides located out of the cell with little or no cell association that carry out important roles both in free-life and in symbiosis. EPS production is very complexly modulated and, frequently, co-regulated with Nod factors, but the type of co-regulation varies depending on the rhizobial strain. Many studies point out a signalling role for EPS-derived oligosaccharides in root infection and nodule invasion but, in certain symbiotic couples, EPS can be dispensable for a successful interaction. In summary, the complex regulation of the production of rhizobial EPS varies in different rhizobia, and the relevance of this polysaccharide in symbiosis with legumes depends on the specific interacting couple.


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