• Pediatric Infection and Vaccine
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• 제29권2호
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• pp.70-76
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• 2022

코로나바이러스감염증-19 (COVID-19)의 임상 양상은 무증상부터 급성 호흡곤란 증후군에 이르기까지 다양하다. 점액 다당류증(mucopolysaccharidosis) 2형은글라이코스아미노글라이칸(glycosaminoglycan)의 일종인 헤파란 황산염(heparan sulfate)과 더마탄 황산염(dermatan sulfate)의 분해를 촉매하는 효소 결핍에 의해 상기 물질이 리소좀(lysosome)에 축적되는 질환으로 전신 침범, 특히 호흡기침범을 특징으로 한다. 따라서 박테리아나 바이러스에 의한 호흡기 감염은 예후에 치명적일 수 있다. 현재 점액 다당류증 환자에서 제 2형 중증급성호흡기증후군 코로나 바이러스(SARS-CoV-2) 감염 후의 임상 양상에 대한 보고는 매우 드물고, 이에 점액 다당류증 2형으로 효소대체요법을 받고 있던 환자에서 상기 바이러스 감염 후의 임상 양상에 대해 보고하고 관련 문헌에 대해 고찰하고자 한다. 16세 남아로 가족간 전파로 코로나바이러스감염증이 발생하였다. 콧물, 기침, 가래 등 호흡기 증상이 관찰되었다. 발열이나 산소요구도 증가는 없었으며 심박수, 호흡수, 산소 포화도는 정상 범위였고 혈액검사결과에서 백혈구 감소증이 관찰되었다. 흉부 방사선 사진에서 폐렴 소견은 보이지 않았다. 보존적 치료와 격리만으로 증상이 호전되었다. 경미한 임상 양상의 원인으로 전구 물질의 축적으로 인해 바이러스에게 불리한 숙주의 세포 환경, 바이러스와의 상호작용에 관여하는 단백질을 암호화하는 유전자 발현의 특정방향으로의 변화가 제시되고 있다. 또한 점액 다당류증 환자에서 증가된 혈청 헤파란 황산염이 SARS-CoV-2 스파이크 단백질과 숙주 세포의 상호작용에 필수적인 세포 표면의 헤파란 황산염과 경쟁하여 SARS-CoV-2의 세포 내 침투로부터 보호한다는 가설도 있다. 향후 더 많은 사례를 통해 점액 다당류증 등의 리소좀 축적질환에서 코로나바이러스감염증의 발현 양상에 대한 연구가 필요하다.

• Journal of Microbiology and Biotechnology
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• 제21권6호
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• pp.637-645
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• 2011

Production of recombinant proteins by excretory expression has many advantages over intracellular expression in Escherichia coli. Hyperexpression of a secretory exoglucanase, Exg, of Cellulomonas fimi was previously shown to saturate the SecYEG pathway and result in dramatic cell death of E. coli. In this study, we demonstrated that overexpression of the PspA in the JM101(pM1VegGcexL-pspA) strain enhanced excretion of Exg to 1.65 U/ml using shake-flask cultivation, which was 80% higher than the highest yield previously obtained from the optimized JM101(pM1VegGcexL) strain. A much higher excreted Exg activity of 4.5 U/ml was further achieved with high cell density cultivation using rich media. Furthermore, we showed that the PspA overexpression strain enjoyed an elevated critical value (CV), which was defined as the largest quotient between the intracellular unprocessed precursor and its secreted mature counterpart that was still tolerable by the host cells prior to the onset of cell death, improving from the previously determined CV of 20/80 to the currently achieved CV of 45/55 for Exg. The results suggested that the PspA overexpression strain might tolerate a higher level of precursor Exg making use of the SecYEG pathway for secretion. The reduced lethal effect might be attributable to the overexpressed PspA, which was postulated to be able to reduce membrane depolarization and damage. Our findings introduce a novel strategy of the combined application of metabolic engineering and construct optimization to the attainment of the best possible E. coli producers for secretory/excretory production of recombinant proteins, using Exg as the model protein.

• Journal of Microbiology
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• 제42권2호
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• pp.111-116
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• 2004

It is known that Bacillus subtilis glutamyl-tRNA synthetase (GluRS) mischarges E. coli $tRNA_{1}$$^{Gln}$ with glutamate in vitro. It has also been established that the expression of B. subtilis GluRS in Escherichia coli results in the death of the host cell. To ascertain whether E. coli growth inhibition caused by B. subtilis GluRS synthesis is a consequence of Glu-$tRNA_{1}$$^{Gln}$ formation, we constructed an in vivo test system, in which B. subtilis GluRS gene expression is controlled by IPTG. Such a system permits the investigation of factors affecting E. coli growth. Expression of E. coli glutaminyl-tRNA synthetase (GlnRS) also amelio-rated growth inhibition, presumably by competitively preventing $tRNA_{1}$$^{Gln}$ misacylation. However, when amounts of up to 10 mM L-glutamine, the cognate amino acid for acylation of $tRNA_{1}$$^{Gln}$, were added to the growth medium, cell growth was unaffected. Overexpression of the B. subtilis gatCAB gene encoding Glu-$tRNA^{Gln}$ amidotransferase (Glu-AdT) rescued cells from toxic effects caused by the formation of the mis-charging GluRS. This result indicates that B. subtilis Glu-AdT recognizes the mischarged E. coli Glu-$tRNA_{1}$$^{Gln}$, and converts it to the cognate Gln-$tRNA_{1}$$^{Gln}$ species. B. subtilis GluRS-dependent Glu-$tRNA_{1}$$^{Gln}$ formation may cause growth inhibition in the transformed E. coli strain, possibly due to abnormal protein synthesis.

• 생명과학회지
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• 제31권2호
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• pp.237-247
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• 2021

신경염증(neuroinflammation)은 여러 신경 질환의 원인 인자로 확인되고있다. 중추 신경계에 발현되는 단백질 복합체인 NLRP3 인플라마좀은 미생물, 응집되고 잘못 접힌 단백질, ATP와 같은 광범위한 외인성 및 내인성 자극에 의해 감지되고 캐스페이즈-1(capase-1)을 활성화할 수 있다. 활성을 띠는 캐스페이즈-1은 IL-1b와 IL-18과 같은 염증성 사이토카인(pro-inflammatory cytokine)을 활성화시키고 급속한 세포사멸(파이롭토시스, pyroptosis)를 야기한다. IL-1b와 IL-18, 그리고 파이롭토시스를 통해 분비된 DAMPs은 다양한 신호 전달 경로를 통해 신경염증 반응을 유도하여 신경 손상을 유발한다. 따라서 NLRP3 인플라마좀은 신경염증으로 인한 여러 가지 신경질환 발병에 중요한 역할을 할 것으로 여겨진다. 본 리뷰 에서는 NLRP3 인플라마좀의 구조와 활성화에 대해 간략히 알아 보고 다양한 형태의 신경 질환에서 NLRP3 인플라마좀의 역할에 대해 논의하고자 한다.

• 대한의생명과학회지
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• 제18권3호
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• pp.201-209
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• 2012

Apoptosis is a physiological programmed cell death process. Tubercle bacilli inhibit apoptosis of alveolar macrophages and phagolysosome fusion. We investigated whether the Bcl-2 family anti-apoptotic member, Bfl-1/A1, plays an important role in the anti-apoptotic process during mycobacterial infection. PMA-treated human monocytoid THP-1 cells were infected with mycobacteria (H37Rv, BCG, and K-strain) at a multiplicity of infection (MOI) of 10 for 0, 1.5, 3, 6, 9, 12, 18, 24, 48, or 72 h. In addition, PMA-treated THP-1 cells were pretreated with specific inhibitors for 45 min before stimulation with mycobacteria at an MOI of 10 for 4 h. After the indicated time, the cells were subject to reverse transcription-polymerase chain reaction (RT-PCR) analysis, and a Bfl-1/A1-specific Western blot was performed. In PMA-differentiated THP-1 cells, the expression level of Bfl-1/A1 mRNA was increased by Mycobacterium tuberculosis (MTB) H37Rv infection. The mRNA level of Bfl-1/A1 peaked 3 h after MTB infection, then declined gradually until 9 h. However, Bfl-1/A1 mRNA induction gradually re-increased from 24 h to 72 h after MTB infection. No difference in Bfl-1/A1 expression was detected following infection with MTB H37Rv, K-strain, or M. bovis BCG. These results were not dependent on mycobacterial virulence. Moreover, mRNA levels of other anti-apoptotic molecules (Mcl-1, Bcl-2, and Bcl-xL) were not increased after MTB H37Rv or K-strain infection. These results suggest that mycobacteria induce the innate immune host defense mechanisms that utilize Bfl-1/A1 molecules at early time points, regardless of virulence.

• Journal of Plant Biotechnology
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• 제43권4호
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• pp.432-437
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• 2016

Interleukin-11 (IL-11) is a cytokine that plays a key regulatory role in the immune system. Recombinant human IL-11 (rhIL-11) exerts a preventative effect against apoptotic cell death and inhibits preadipocyte differentiation. IL-11 also is used to stimulate the bone marrow to produce platelets in order to prevent low platelets that may be caused by chemotherapy. Unfortunately, the high production cost of IL-11 associated. In this study, we investigated the feasibility of transgenic plants for the cost-effective production of rhIL-11. Production of rhIL-11 proteins in whole-plant expression system will be more economical when compared to the current E. coli based expression system. The human rhIL-11 gene was codon optimized to maximize plant host system expression. IL-11 expression vector under the control of a constitutive cauliflower mosaic virus 35S (CaMV 35S) promoter was introduced into tobacco by Agrobacterium-mediated transformation. The 5'-leader sequence (called ${\Omega}$) of tobacco mosaic virus (TMV) as a translational enhancer was added to construct. Transgenic tobacco plants expressing various levels of rhIL-11 protein were generated. Western blotting of the stably transformed lines demonstrated accumulation of the appropriately sized rhIL-11 protein in leaves. This research demonstrated the efficacy of using tobacco as an expression system for the production of rhIL-11.

• Journal of Microbiology and Biotechnology
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• 제19권2호
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• pp.194-203
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• 2009

$HpaG_{Xooc}$, from rice pathogenic bacterium Xanthomonas oryzae pv. oryzicola, is a member of the harpin group of proteins, eliciting hypersensitive cell death in non-host plants, inducing disease and insect resistance in plants, and enhancing plant growth. To express and secret the $HpaG_{Xooc}$ protein in Bacillus subtilis, we constructed a recombinant expression vector pM43HF with stronger promoter P43 and signal peptide element nprB. The SDS-PAGE and Western blot analysis demonstrated the expression of the protein $HpaG_{Xooc}$ in B. subtilis. The ELISA analysis determined the optimum condition for $HpaG_{Xooc}$ expression in B. subtilis WBHF. The biological function analysis indicated that the protein $HpaG_{Xooc}$ from B. subtilis WBHF elicits hypersensitive response(HR) and enhances the growth of tobacco. The results of RT-PCR analysis revealed that $HpaG_{Xooc}$ induces expression of the pathogenesis-related genes PR-1a and PR-1b in plant defense response.

• Restorative Dentistry and Endodontics
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• 제27권5호
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• pp.543-551
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• 2002

Nitric oxide (NO) is a small molecule (mol. wt. 30 Da) and oxidative free radical. It is uncharged and can therefore diffuse freely within and between cells across membrane. Such characteristics make it a biologically important messenger in physiologic processes such as neurotransmission and the control of vascular tone. NO is also highly toxic and is known to acts as a mediator of cytotoxicity during host defense. NO is synthesized by nitric oxide synthase (NOS) through L-arginine/nitric oxide pathway which is a dioxygenation process. NO synthesis involves several participants, three co-substrates, five electrons, five co-factors and two prosthetic groups. Under normal condition, low levels of NO are synthesized by type I and III NOS for a short period of time and mediates many physiologic processes. Under condition of oxidant stress, high levels of NO are synthesized by type II NOS and inhibits a variety of metabolic processes and can also cause direct damage to DNA. Such interaction result in cytostasis, energy depletion and ultimately cell death. NO has the potential to interact with a variety of intercellular targets producing diverse array of metabolic effects. It is known that NO is involved in hemodynamic regulation, neurogenic inflammation, re-innervation, management of dentin hypersensitivity on teeth. Under basal condition of pulpal blood flow, NO provides constant vasodilator tone acting against sympathetic vasoconstriction. Substance P, a well known vasodilator, was reported to be mediated partly by NO, while calcitonin-gene related peptide has provided no evidence of its relation with NO. This review describes the roles of NO in dental pulp in addition to the known general roles of it.

• 약학회지
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• 제40권1호
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• pp.102-111
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• 1996

LB10522 is a new parenteral broad spectrum cephalosporin with a catechol moiety at C-7 position of beta-lactam ring. This compound can utilize tonB-dependent iron transp ort system in addition to porin proteins to enter bacterial periplasmic space and access to penicillin-binding proteins (PBPs) which are the lethal targets of ${\beta}$-lactam antibiotics. The chelating activity of LB10522 to metal iron was measured by spectrophotometrically scanning the absorbance from 200 to 900nm. When $FeCl_3$ was added, optical density was increased between 450 and 800nm. LB10522 was more active against gram-negative strains in iron-depleted media than in iron-replete media. This is due to the increased expression of iron transport channels in iron-depleted condition. LB10522 showed a similar activity against E. coli DC2 (permeability mutant) and E. coli DCO (wild type strain) in both iron-depleted and iron-replete media, indicating a minimal permeaility barrier for LB10522 uptake. LB10522 had high affinities to PBP 3 and PBP 1A, 1B of E. coli. By blocking these proteins, LB10522 caused inhibition of cell division and the eventual death of cells. This result was correlated well with the morphological changes in E. coli exposed to LB10522. Although the in vitro MIC of LB10522 against P. aeruginosa 1912E mutant (tonB) was 8-times higher than that of the P. aeruginosa 1912E parent strain, LB10522 showed a similar in vivo protection efficacy against both strains in the mouse systemic infection model. This result suggested that tonB mutant, which requires a high level of iron for normal growth, might have a difficulty in surviving in their host with an iron-limited environment.

• KSBB Journal
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• 제30권1호
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• pp.44-51
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• 2015

Chinese hamster ovary (CHO) cells are the most widely used mammalian host for the commercial production of recombinant proteins. However, they show relatively low yields of recombinant proteins in comparison with microbial cells. Various strategies have been tried to overcome this drawback. The acetyl moieties are attached to the N-terminus of histone by histone acetyltransferase (HAT) while histone deacetylase (HDAC) removes histone-bound acetyl groups. HDAC inhibitor (HDACi), such as sodium butyrate, sodium propionate and valproic acid, can enhance specific productivity of CHO cells. Human albumin-erythropoietin (Alb-EPO) is a novel 105 kDa protein comprising recombinant human EPO fused to human albumin. In this study, we examined the effects of HDACi on the production of Alb-EPO in CHO cells with various concentrations in the range of 0-1 mM. The results showed that sodium butyrate was found to be the best HDACi for enhancing productivity. It enhanced not only the production of Alb-EPO but also the apoptosis of recombinant CHO cells.