32 results on '"Lee, Bok Luel"'
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2. The pro-phenoloxidase of coleopteran insect, Tenebrio molitor, larvae was activated during cell clump/cell adhesion of insect cellular defense reactions
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Lee, Hyun Seong, Cho, Mi Young, Lee, Kwang Moon, Kwon, Tae Hyuk, Homma, Ko-ichi, Natori, Shunji, and Lee, Bok Luel
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- 1999
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3. Interaction of cationic antimicrobial peptides with Mycoplasma pulmonis
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Park, Ho Jin, Kang, Ki Mo, Dybvig, Kevin, Lee, Bok Luel, Jung, Yong Woo, and Lee, In Hee
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- 2013
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4. The proPO-system: pros and cons for its role in invertebrate immunity
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Cerenius, Lage, Lee, Bok Luel, and Söderhäll, Kenneth
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IMMUNE response , *INVERTEBRATES , *PHAGOCYTOSIS , *ANTIGEN-antibody reactions , *FLIES , *MOSQUITOES , *RNA - Abstract
Melanisation is an important immune response in many invertebrates. Recent evidence also strongly implies that the melanisation (prophenoloxidase activating) cascade is intimately associated with the appearance of factors stimulating cellular defence by aiding phagocytosis and encapsulation reactions. However, some controversy exists in the field, and at least in flies and mosquitoes, the successful combat of some pathogens does not seem to be dependent on phenoloxidase activity. This may be because of redundancy among separate immune mechanisms, inappropriate testing, species differences or a combination thereof. Recently, by using RNA interference against phenoloxidase or in specific host–pathogen interactions where the pathogen prevents melanin production by the host, convincing data have confirmed the importance of this cascade in invertebrate innate immunity. [Copyright &y& Elsevier]
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- 2008
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5. Cell-mediated immunity in arthropods: Hematopoiesis, coagulation, melanization and opsonization
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Jiravanichpaisal, Pikul, Lee, Bok Luel, and Söderhäll, Kenneth
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CELLULAR immunity , *ARTHROPODA , *BLOOD cells , *IMMUNOLOGY - Abstract
Abstract: The functions of hemocytes in innate immune response are reviewed with emphasized on their roles in coagulation, melanization and opsonization. Also the ways in which hemocytes are produced in and released from hematopoietic tissue are discussed. [Copyright &y& Elsevier]
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- 2006
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6. The staphylococcal surface-glycopolymer wall teichoic acid (WTA) is crucial for complement activation and immunological defense against Staphylococcus aureus infection.
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Kurokawa, Kenji, Takahashi, Kazue, and Lee, Bok Luel
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STAPHYLOCOCCUS aureus infections , *TEICHOIC acid , *COMPLEMENT activation , *MEMBRANE glycoproteins , *GLYCOSYLATION - Abstract
Staphylococcus aureus is a Gram-positive bacterial pathogen that is decorated by glycopolymers, including wall teichoic acid (WTA), peptidoglycan, lipoteichoic acid, and capsular polysaccharides. These bacterial surface glycopolymers are recognized by serum antibodies and a variety of pattern recognition molecules, including mannose-binding lectin (MBL). Recently, we demonstrated that human serum MBL senses staphylococcal WTA. Whereas MBL in infants who have not yet fully developed adaptive immunity binds to S. aureus WTA and activates complement serum, MBL in adults who have fully developed adaptive immunity cannot bind to WTA because of an inhibitory effect of serum anti-WTA IgG. Furthermore, we showed that human anti-WTA IgGs purified from pooled adult serum IgGs triggered activation of classical complement-dependent opsonophagocytosis against S. aureus . Because the epitopes of WTA that are recognized by anti-WTA IgG and MBL have not been determined, we constructed several S. aureus mutants with altered WTA glycosylation. Our intensive biochemical studies provide evidence that the β-GlcNAc residues of WTA are required for the induction of anti-WTA IgG-mediated opsonophagocytosis and that both β- and α-GlcNAc residues are required for MBL-mediated complement activation. The molecular interactions of other S. aureus cell wall components and host recognition proteins are also discussed. In summary, in this review, we discuss the biological importance of S. aureus cell surface glycopolymers in complement activation and host defense responses. [ABSTRACT FROM AUTHOR]
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- 2016
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7. The symbiotic role of O-antigen of Burkholderia symbiont in association with host Riptortus pedestris.
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Kim, Jiyeun Kate, Park, Ha Young, and Lee, Bok Luel
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BURKHOLDERIA , *HOSTS (Biology) , *GENETIC mutation , *MOLECULAR interactions , *LIPOPOLYSACCHARIDES - Abstract
Riptortus pedestris harboring Burkholderia symbiont is a useful symbiosis model to study the molecular interactions between insects and bacteria. We recently reported that the lipopolysaccharide O-antigen is absent in the Burkholderia symbionts isolated from Riptortus guts. Here, we investigated the symbiotic role of O-antigen comprehensively in the Riptortus-Burkholderia model. Firstly, Burkholderia mutant strains deficient of O-antigen biosynthesis genes were generated and confirmed for their different patterns of the lipopolysaccharide by electrophoretic analysis. The O-antigen-deficient mutant strains initially exhibited a reduction of infectivity, having significantly lower level of symbiont population at the second-instar stage. However, both the wild-type and O-antigen mutant symbionts exhibited a similar level of symbiont population from the third-instar stage, indicating that the O-antigen deficiency did not affect the bacterial persistence in the host midgut. Taken together, we showed that the lipopolysaccharide O-antigen of gut symbiont plays an exclusive role in the initial symbiotic association. [ABSTRACT FROM AUTHOR]
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- 2016
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8. Two hevein homologs isolated from the seed of Pharbitis nil L. exhibit potent antifungal activity
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Koo, Ja Choon, Lee, So Young, Chun, Hyun Jin, Cheong, Yong Hwa, Choi, Jae Su, Kawabata, Shun-ichiro, Miyagi, Masaru, Tsunasawa, Susumu, Ha, Kwon Soo, Bae, Dong Won, Han, Chang-deok, Lee, Bok Luel, and Cho, Moo Je
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- 1998
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9. Proteolytic cascades and their involvement in invertebrate immunity
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Cerenius, Lage, Kawabata, Shun-ichiro, Lee, Bok Luel, Nonaka, Masaru, and Söderhäll, Kenneth
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PROTEOLYSIS , *INVERTEBRATES , *BODY fluids , *BIOLOGICAL variation , *DENATURATION of proteins , *NATURAL immunity - Abstract
Bacteria and other potential pathogens are cleared rapidly from the body fluids of invertebrates by the immediate response of the innate immune system. Proteolytic cascades, following their initiation by pattern recognition proteins, control several such reactions, notably coagulation, melanisation, activation of the Toll receptor and complement-like reactions. However, there is considerable variation among invertebrates and these cascades, although widespread, are not present in all phyla. In recent years, significant progress has been made in identifying and characterizing these cascades in insects. Notably, recent work has identified several connections and shared principles among the different pathways, suggesting that cross-talk between them may be common. [ABSTRACT FROM AUTHOR]
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- 2010
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10. Purification of properoxinectin, a myeloperoxidase homologue and its activation to a cell adhesion molecule
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Lin, Xionghui, Cerenius, Lage, Lee, Bok Luel, and Söderhäll, Kenneth
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PEROXIDASE , *CELL adhesion , *BLOOD cells , *PROTEOLYTIC enzymes - Abstract
Abstract: Peroxidases are important mediators of innate immune reactions throughout the animal kingdom. In many arthropods a myeloperoxidase homologue, peroxinectin, is known to function as a cell adhesion factor and an opsonin. Here, we report in the freshwater crayfish Pacifastacus leniusculus the isolation of properoxinectin, inactive in cell adhesion, and we also show that properoxinectin is produced in the mature blood cells whereas the hematopoietic tissue contains very little of this protein. Both properoxinectin and peroxinectin are catalytically active as peroxidases, at least when using low molecular weight substrates. The extracellular processing of properoxinectin into an active cell adhesion protein was found to involve proteolytic steps shared with the prophenoloxidase activating system to yield catalytically active phenoloxidase. Thus, the regulation of activities by two ancient metalloproteins, both potentially producing highly toxic substances aimed at pathogens, is carried out by limited proteolysis. The proteolytic processing is triggered in the presence of microbial compounds such as beta-glucans or lipopolysaccharide after the release of properoxinectin and prophenoloxidase activating serine proteinases from the blood cells. [Copyright &y& Elsevier]
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- 2007
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11. Insecticidal activity of the metalloprotease AprA occurs through suppression of host cellular and humoral immunity.
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Lee, Seung Ah, Jang, Seong Han, Kim, Byung Hyun, Shibata, Toshio, Yoo, Jinwook, Jung, Yunjin, Kawabata, Shun-ichiro, and Lee, Bok Luel
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MICROBIAL virulence , *ENTOMOPATHOGENIC fungi , *INSECT pathogens , *IMMUNE response , *MOLECULAR interactions - Abstract
The biochemical characterization of virulence factors from entomopathogenic bacteria is important to understand entomopathogen-insect molecular interactions. Pseudomonas entomophila is a typical entomopathogenic bacterium that harbors virulence factors against several insects. However, the molecular actions of these factors against host innate immune responses are not clearly elucidated. In this study, we observed that bean bugs ( Riptortus pedestris ) that were injected with P. entomophila were highly susceptible to this bacterium. To determine how P. entomophila counteracts the host innate immunity to survive within the insect, we purified a highly enriched protein with potential host insect-killing activity from the culture supernatant of P. entomophila . Then, a 45-kDa protein was purified to homogeneity and identified as AprA which is an alkaline zinc metalloprotease of the genus Pseudomonas by liquid chromatography mass spectrometry (LC-MS). Purified AprA showed a pronounced killing effect against host insects and suppressed both host cellular and humoral innate immunity. Furthermore, to show that AprA is an important insecticidal protein of P. entomophila , we used an aprA -deficient P. entomophila mutant strain (Δ aprA ). When Δ aprA mutant cells were injected to host insects, this mutant exhibited extremely attenuated virulence. In addition, the cytotoxicity against host hemocytes and the antimicrobial peptide-degrading ability of the Δ aprA mutant were greatly decreased. These findings suggest that AprA functions as an important insecticidal protein of P. entomophila via suppression of host cellular and humoral innate immune responses. [ABSTRACT FROM AUTHOR]
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- 2018
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12. The roles of antimicrobial peptide, rip-thanatin, in the midgut of Riptortus pedestris.
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Park, Kyoung-Eun, Jang, Seong Han, Lee, Junbeom, Lee, Seung Ah, Kikuchi, Yoshitomo, Seo, Young-su, and Lee, Bok Luel
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ANTIMICROBIAL peptides , *PEPTIDES , *RNA interference , *GENE expression , *BACTERIAL diseases - Abstract
Recently, we have reported the structural determination of antimicrobial peptides (AMPs), such as riptocin, rip-defensin, and rip-thanatin, from Riptortus pedestris . However, the biological roles of AMPs in the host midgut remain elusive. Here, we compared the expression levels of AMP genes in apo-symbiotic insects with those of symbiotic insects. Interestingly, the expression level of rip-thanatin was only significantly increased in the posterior midgut region of symbiotic insects. To further determine the role of rip-thanatin, we checked antimicrobial activity in vitro . Rip-thanatin showed high antimicrobial activity and had the same structural characteristics as other reported thanatins. To find the novel function of rip-thanatin, rip-thanatin was silenced by RNA interference, and the population of gut symbionts was measured. When rip-thanatin was silenced, the symbionts' titer was increased upon bacterial infection. These results suggest that rip-thanatin functions not only as an antimicrobial peptide but also in controlling the symbionts’ titer in the host midgut. [ABSTRACT FROM AUTHOR]
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- 2018
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13. Gut symbiotic bacteria stimulate insect growth and egg production by modulating hexamerin and vitellogenin gene expression.
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Lee, Jun Beom, Park, Kyoung-Eun, Lee, Seung Ah, Jang, Seong Han, Eo, Ho Jeong, Jang, Ho Am, Kim, Chan-Hee, Ohbayashi, Tsubasa, Matsuura, Yu, Kikuchi, Yoshitomo, Futahashi, Ryo, Fukatsu, Takema, and Lee, Bok Luel
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INSECT growth , *AGRICULTURAL egg production , *VITELLOGENINS , *GENE expression , *INSECT genetics , *SYMBIOSIS , *HEMOLYMPH - Abstract
Recent studies have suggested that gut symbionts modulate insect development and reproduction. However, the mechanisms by which gut symbionts modulate host physiologies and the molecules involved in these changes are unclear. To address these questions, we prepared three different groups of the insect Riptortus pedestris : Burkholderia gut symbiont-colonized (Sym) insects, Burkholderia -non-colonized (Apo) insects, and Burkholderia -depleted (Sym Burk- ) insects, which were fed tetracycline. When the hemolymph proteins of three insects were analyzed by SDS-PAGE, the hexamerin-α, hexamerin-β and vitellogenin-1 proteins of Sym-adults were highly expressed compared to those of Apo- and Sym Burk- -insects. To investigate the expression patterns of these three genes during insect development, we measured the transcriptional levels of these genes. The hexamerin-β gene was specifically expressed at all nymphal stages, and its expression was detected 4–5 days earlier in Sym-insect nymphs than that in Apo- and Sym Burk- -insects. However, the hexamerin-α and vitellogenin-1 genes were only expressed in adult females, and they were also detected 6–7 days earlier and were 2-fold higher in Sym-adult females than those in the other insects. Depletion of hexamerin-β by RNA interference in 2nd instar Sym-nymphs delayed adult emergence, whereas hexamerin-α and vitellogenin-1 RNA interference in 5th instar nymphs caused loss of color of the eggs of Sym-insects. These results demonstrate that the Burkholderia gut symbiont modulates host development and egg production by regulating production of these three hemolymph storage proteins. [ABSTRACT FROM AUTHOR]
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- 2017
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14. A midgut lysate of the Riptortus pedestris has antibacterial activity against LPS O-antigen-deficient Burkholderia mutants.
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Jang, Ho Am, Seo, Eun Sil, Seong, Min Young, and Lee, Bok Luel
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SOYBEAN diseases & pests , *BURKHOLDERIA , *ANTIBACTERIAL agents , *O antigens , *TRYPSIN inhibitors - Abstract
Riptortus pedestris , a common pest in soybean fields, harbors a symbiont Burkholderia in a specialized posterior midgut region of insects. Every generation of second nymphs acquires new Burkholderia cells from the environment. We compared in vitro cultured Burkholderia with newly in vivo colonized Burkholderia in the host midgut using biochemical approaches. The bacterial cell envelope of in vitro cultured and in vivo Burkholderia differed in structure, as in vivo bacteria lacked lipopolysaccharide (LPS) O-antigen. The LPS O-antigen deficient bacteria had a reduced colonization rate in the host midgut compared with that of the wild-type Burkholderia . To determine why LPS O-antigen-deficient bacteria are less able to colonize the host midgut, we examined in vitro survival rates of three LPS O-antigen-deficient Burkholderia mutants and lysates of five different midgut regions. The LPS O-antigen-deficient mutants were highly susceptible when cultured with the lysate of a specific first midgut region (M1), indicating that the M1 lysate contains unidentified substance(s) capable of killing LPS O-antigen-deficient mutants. We identified a 17 kDa protein from the M1 lysate, which was enriched in the active fractions. The N-terminal sequence of the protein was determined to be a soybean Kunitz-type trypsin inhibitor. These data suggest that the 17 kDa protein, which was originated from a main soybean source of the R. pedestris host, has antibacterial activity against the LPS O-antigen deficient (rough-type) Burkholderia. [ABSTRACT FROM AUTHOR]
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- 2017
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15. An antimicrobial protein of the Riptortus pedestris salivary gland was cleaved by a virulence factor of Serratia marcescens.
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Lee, Dong Jung, Lee, Jun Beom, Jang, Ho Am, Ferrandon, Dominique, and Lee, Bok Luel
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ANTI-infective agents , *SALIVARY proteins , *MICROBIAL virulence , *SERRATIA marcescens , *ENTOMOPATHOGENIC fungi - Abstract
Recently, our group demonstrated that the bean bug, Riptortus pedestris , is a good experimental symbiosis model to study the molecular cross-talk between the host insect and the gut symbiont. The Burkholderia symbiont is orally acquired by host nymphs from the environment in every generation. However, it is still unclear how Riptortus specifically interacts with entomopathogens that are abundant in the environmental soil. In preliminary experiments, we observed that a potent entomopathogen, Serratia marcescens , can colonize the midgut of Riptortus insects and was recovered from the midgut when Serratia cells were orally administered, suggesting that this pathogenic bacterium can escape host immune defenses in the salivary fluid. We examined how orally fed Serratia cells can survive in the presence of antimicrobial substances of the Riptortus salivary fluid. In this study, a 15 kDa trialysin-like protein from the salivary gland of R. pedestris and a potent virulence factor of Serratia cells, a serralysin metalloprotease, from the culture medium of S. marcescens were successfully purified to homogeneity. When the purified Riptortus trialysin (rip-trialysin) was incubated with purified serralysin, rip-trialysin was specifically hydrolyzed by serralysin, leading to the loss of antimicrobial activity. These results clearly demonstrated that a potent virulent metalloprotease of S. marcescens functions as a key player in the escape from the salivary fluid-mediated host immune response, resulting in successful colonization of S. marcescens in the host midgut. [ABSTRACT FROM AUTHOR]
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- 2017
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16. Understanding regulation of the host-mediated gut symbiont population and the symbiont-mediated host immunity in the Riptortus-Burkholderia symbiosis system.
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Kim, Jiyeun Kate, Lee, Jun Beom, Jang, Ho Am, Han, Yeon Soo, Fukatsu, Takema, and Lee, Bok Luel
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INSECT microbiology , *GUT microbiome , *BURKHOLDERIA , *NATURAL immunity , *HOST-parasite relationships , *IMMUNE response - Abstract
Valuable insect models have tremendously contributed to our understanding of innate immunity and symbiosis. Bean bug, Riptortus pedestris , is a useful insect symbiosis model due to harboring cultivable monospecific gut symbiont, genus Burkholderia . Bean bug is a hemimetabolous insect whose immunity is not well-understood. However, we recently identified three major antimicrobial peptides of Riptortus and examined the relationship between gut symbiosis and host immunity. We found that the presence of Burkholderia gut symbiont positively affects Riptortus immunity. From studying host regulation mechanisms of symbiont population, we revealed that the symbiotic Burkholderia cells are much more susceptible to Riptortus immune responses than the cultured cells. We further elucidated that the immune-susceptibility of the Burkholderia gut symbionts is due to the drastic change of bacterial cell envelope. Finally, we show that the immune-susceptible Burkholderia symbionts are able to prosper in host owing to the suppression of immune responses of the symbiotic midgut. [ABSTRACT FROM AUTHOR]
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- 2016
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17. A specific cathepsin-L-like protease purified from an insect midgut shows antibacterial activity against gut symbiotic bacteria.
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Byeon, Jin Hee, Seo, Eun Sil, Lee, Jun Beom, Lee, Min Ja, Kim, Jiyeun Kate, Yoo, Jin Wook, Jung, Yunjin, and Lee, Bok Luel
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PROTEOLYTIC enzymes , *GUT microbiome , *ANTIBACTERIAL agents , *ESCHERICHIA coli , *INSECT enzymes - Abstract
Because gut symbiotic bacteria affect host biology, host insects are expected to evolve some mechanisms for regulating symbiont population. The bean bug, Riptortus pedestris , harbors the Burkholderia genus as a gut symbiont in the midgut organ, designated as the M4 region. Recently, we demonstrated that the lysate of M4B, the region adjacent to M4, harbors potent antibacterial activity against symbiotic Burkholderia but not to cultured Burkholderia . However, the bona fide substance responsible for observed antibacterial activity was not identified in the previous study. Here, we report that cathepsin-L-like protease purified from the lysate of M4B showed strong antibacterial activity against symbiotic Burkholderia but not the cultured Burkholderia. To further confirm this activity, recombinant cathepsin-L-like protease expressed in Escherichia coli also showed antibacterial activity against symbiotic Burkholderia . These results suggest that cathepsin-L-like protease purified from the M4B region plays a critical role in controlling the population of the Burkholderia gut symbiont. [ABSTRACT FROM AUTHOR]
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- 2015
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18. Burkholderia gut symbionts enhance the innate immunity of host Riptortus pedestris.
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Kim, Jiyeun Kate, Lee, Jun Beom, Huh, Ye Rang, Jang, Ho Am, Kim, Chan-Hee, Yoo, Jin Wook, and Lee, Bok Luel
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GUT microbiome , *BURKHOLDERIA , *ANTI-infective agents , *CELLULAR immunity , *NATURAL immunity - Abstract
The relation between gut symbiosis and immunity has been reported in various animal model studies. Here, we corroborate the effect of gut symbiont to host immunity using the bean bug model. The bean bug, Riptortus pedestris , is a useful gut symbiosis model due to the monospecific gut symbiont, genus Burkholderia . To examine the effect of gut symbiosis to host immunity, we generated the gut symbiont-harboring (symbiotic) insect line and the gut symbiont-lacking (aposymbiotic) insect line. Upon bacterial challenges, the symbiotic Riptortus exhibited better survival than aposymbiotic Riptortus . When cellular immunity was inhibited, the symbiotic Riptortus still survived better than aposymbioic Riptortus , suggesting stronger humoral immunity. The molecular basis of the strong humoral immunity was further confirmed by the increase of hemolymph antimicrobial activity and antimicrobial peptide expression in the symbiotic insects. Taken together, our data clearly demonstrate that Burkhoderia gut symbiont positively affect the Riptortus systemic immunity. [ABSTRACT FROM AUTHOR]
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- 2015
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19. In silico designed Staphylococcus aureus B-cell multi-epitope vaccine did not elicit antibodies against target antigens suggesting multi-domain approach.
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Ullah, Nimat, Anwer, Farha, Ishaq, Zaara, Siddique, Abubakar, Shah, Majid Ali, Rahman, Moazur, Rahman, Abdur, Mao, Xinrui, Jiang, TingTing, Lee, Bok Luel, Bae, Taeok, and Ali, Amjad
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STAPHYLOCOCCUS aureus , *CHOLERA toxin , *ANTIGENS , *STAPHYLOCOCCAL diseases , *IMMUNOGLOBULINS - Abstract
The vaccine development strategies have evolved from using an entire organism as an immunogen to a single antigen and further towards an epitope. Since an epitope is a relatively tiny and immunologically relevant part of an antigen, it has the potential to stimulate more robust and specific immune responses while causing minimal adverse effects. As a result, the recent focus of vaccine development has been to develop multi-epitope vaccines that can target multiple virulence mechanisms. Accordingly, we designed multi-epitope vaccine candidates B (multi-B-cell epitope immunogen) and CTB-B (an adjuvant – cholera toxin subunit B (CTB) – attached to immunogen B) against S. aureus by employing immunoinformatics approaches. The designed vaccines are composed of B-cell epitope segments (20-mer) of the eight well-characterized S. aureus virulence factors, namely ClfB, FnbpA, Hla, IsdA, IsdB, LukE, SdrD, and SdrE connected in series. The designed vaccines were expressed, purified, and administered to C57BL/6 mice with Freund adjuvant to evaluate the immunogenicity and protective efficacy. The results revealed that the immunized mice showed high IgG titers for the immunogen, and the antibody titers increased significantly following the second immunization. However, the generated antibodies did not protect the mice from infection. The interaction of anti-B antibodies with source virulence factors showed that the generated antibodies have no binding affinity with any of the corresponding virulence factors. Our results demonstrate the limitation of the in silico designed B-cell multi-epitope vaccine and suggest that a protein domain carrying both linear and conformational B-cell epitopes might be a better choice for developing an effective multi-epitope vaccine against S. aureus. • We designed B-cell multi-epitope vaccine candidates against S. aureus by employing immunoinformatics approaches. • The designed vaccine candidates failed to protect mice from staphylococcal infection. • The antibodies generated against the designed vaccines have no binding affinity with any of the target antigens. • Our results demonstrate the limitation of in silico designed B-cell multi-epitope vaccine and suggest multi-domain approach. [ABSTRACT FROM AUTHOR]
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- 2022
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20. Gene structure, cDNA characterization and RNAi-based functional analysis of a myeloid differentiation factor 88 homolog in Tenebrio molitor larvae exposed to Staphylococcus aureus infection.
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Patnaik, Bharat Bhusan, Patnaik, Hongray Howrelia, Seo, Gi Won, Jo, Yong Hun, Lee, Yong Seok, Lee, Bok Luel, and Han, Yeon Soo
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ANTISENSE DNA , *RNA interference , *MYELOID differentiation factor 88 , *TENEBRIO molitor , *STAPHYLOCOCCUS aureus - Abstract
Myeloid differentiation factor 88 (MyD88), an intracellular adaptor protein involved in Toll/Toll-like receptor (TLR) signal processing, triggers activation of nuclear factor-kappaB (NF-κB) transcription factors. In the present study, we analyzed the gene structure and biological function of MyD88 in a coleopteran insect, Tenebrio molitor (TmMyD88). The TmMyD88 gene was 1380 bp in length and consisted of five exons and four introns. The 5′-flanking sequence revealed several putative transcription factor binding sites, such as STAT-4, AP-1, cJun, cfos, NF-1 and many heat shock factor binding elements. The cDNA contained a typical death domain, a conservative Toll-like interleukin-1 receptor (TIR) domain, and a C-terminal extension (CTE). The TmMyD88 TIR domain showed three significantly conserved motifs for interacting with the TIR domain of TLRs. TmMyD88 was grouped within the invertebrate cluster of the phylogenetic tree and shared 75% sequence identity with the TIR domain of Tribolium castaneum MyD88. Homology modeling of the TmMyD88 TIR domain revealed five parallel β-strands surrounded by five α-helices that adopted loop conformations to function as an adaptor. TmMyD88 expression was upregulated 7.3- and 4.79-fold after 12 and 6 h, respectively, of challenge with Staphylococcus aureus and fungal β-1,3 glucan. Silencing of the TmMyD88 transcript by RNA interference led to reduced resistance of the host to infection by S. aureus . These results indicate that TmMyD88 is required for survival against Staphylococcus infection. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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21. Molting-associated suppression of symbiont population and up-regulation of antimicrobial activity in the midgut symbiotic organ of the Riptortus–Burkholderia symbiosis.
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Kim, Jiyeun Kate, Han, Sang Heum, Kim, Chan-Hee, Jo, Yong Hun, Futahashi, Ryo, Kikuchi, Yoshitomo, Fukatsu, Takema, and Lee, Bok Luel
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IMMUNOSUPPRESSION , *BURKHOLDERIA , *PEPTIDE antibiotics , *SYMBIOSIS , *GUT microbiome , *BACTERIAL population - Abstract
Highlights: [•] Titer of gut symbiont transiently decreases at pre-molt stages of host insect. [•] The pre-molt symbiotic midgut exhibits antimicrobial activity against the symbiont. [•] Antimicrobial peptide genes are up-regulated in the pre-molt symbiotic midgut. [•] Antimicrobial activity of the symbiotic midgut is related to host’s molting. [Copyright &y& Elsevier]
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- 2014
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22. Genomic organization, sequence characterization and expression analysis of Tenebrio molitor apolipophorin-III in response to an intracellular pathogen, Listeria monocytogenes.
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Noh, Ju Young, Patnaik, Bharat Bhusan, Tindwa, Hamisi, Seo, Gi Won, Kim, Dong Hyun, Patnaik, Hongray Howrelia, Jo, Yong Hun, Lee, Yong Seok, Lee, Bok Luel, Kim, Nam Jung, and Han, Yeon Soo
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GENE expression , *NUCLEOTIDE sequence , *TENEBRIO molitor , *APOLIPOPHORINS , *INTRACELLULAR pathogens , *LISTERIA monocytogenes , *ANTISENSE DNA - Abstract
Abstract: Apolipophorin III (apoLp-III) is a well-known hemolymph protein having a functional role in lipid transport and immune response of insects. We cloned full-length cDNA encoding putative apoLp-III from larvae of the coleopteran beetle, Tenebrio molitor (TmapoLp-III), by identification of clones corresponding to the partial sequence of TmapoLp-III, subsequently followed with full length sequencing by a clone-by-clone primer walking method. The complete cDNA consists of 890 nucleotides, including an ORF encoding 196 amino acid residues. Excluding a putative signal peptide of the first 20 amino acid residues, the 176-residue mature apoLp-III has a calculated molecular mass of 19,146Da. Genomic sequence analysis with respect to its cDNA showed that TmapoLp-III was organized into four exons interrupted by three introns. Several immune-related transcription factor binding sites were discovered in the putative 5′-flanking region. BLAST and phylogenetic analyses reveal that TmapoLp-III has high sequence identity (88%) with Tribolium castaneum apoLp-III but shares little sequence homologies (<26%) with other apoLp-IIIs. Homology modeling of Tm apoLp-III shows a bundle of five amphipathic alpha helices, including a short helix 3′. The ‘helix–short helix–helix’ motif was predicted to be implicated in lipid binding interactions, through reversible conformational changes and accommodating the hydrophobic residues to the exterior for stability. Highest level of TmapoLp-III mRNA was detected at late pupal stages, albeit it is expressed in the larval and adult stages at lower levels. The tissue specific expression of the transcripts showed significantly higher numbers in larval fat body and adult integument. In addition, TmapoLp-III mRNA was found to be highly upregulated in late stages of L. monocytogenes or E. coli challenge. These results indicate that TmapoLp-III may play an important role in innate immune responses against bacterial pathogens in T. molitor. [Copyright &y& Elsevier]
- Published
- 2014
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23. Purification and characterization of tenecin 4, a new anti-Gram-negative bacterial peptide, from the beetle Tenebrio molitor
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Chae, Jun-Ho, Kurokawa, Kenji, So, Young-In, Hwang, Hyun Ok, Kim, Min-Su, Park, Ji-Won, Jo, Yong-Hun, Lee, Yong Seok, and Lee, Bok Luel
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PEPTIDE antibiotics , *GRAM-negative bacteria , *LIGANDS (Biochemistry) , *ADENOSINE monophosphate , *TENEBRIO molitor , *IMMUNE response , *HEMOLYMPH - Abstract
Abstract: The biochemical characterization of novel antimicrobial peptides (AMPs) and the determination of ligand molecules that induce AMP production are essential for understanding the host innate immune response in insects. Here, we purified a new 14-kDa AMP, named tenecin 4, from the larval hemolymph of the beetle Tenebrio molitor. Tenecin 4 contains 14% glycine residues and has moderate similarities both to the C-terminal region of Drosophila attacin and to silk-moth gloverin proteins. Purified tenecin 4 showed bactericidal activity against Gram-negative Escherichia coli but not against Gram-positive Bacillus subtilis or the fungus Candida albicans. Tenecin 4 production was induced by Toll cascade-activating ligands, such as β-1,3-glucan, lysine-type peptidoglycan and active Spätzle, and by the probable Imd pathway-activating ligand monomeric meso-diaminopimelic acid-type peptidoglycan. Taken together, these data show that tenecin 4 is a defense protein against Gram-negative pathogens and is induced by multiple ligands in Tenebrio larvae. [Copyright &y& Elsevier]
- Published
- 2012
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24. Biochemical characterization of evasion from peptidoglycan recognition by Staphylococcus aureus d-alanylated wall teichoic acid in insect innate immunity
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Kurokawa, Kenji, Gong, Ji-Hee, Ryu, Kyoung-Hwa, Zheng, Lili, Chae, Jun-Ho, Kim, Min-Su, and Lee, Bok Luel
- Subjects
- *
PEPTIDOGLYCANS , *STAPHYLOCOCCUS aureus , *NATURAL immunity , *ANTI-infective agents , *CARRIER proteins , *GRAM-negative bacteria , *PROTEOLYTIC enzymes , *INSECT physiology - Abstract
Abstract: We recently reported that d-alanylation of Staphylococcus aureus wall teichoic acid (WTA) mitigates an induction of the Toll-mediated humoral response in Drosophila by interfering with peptidoglycan (PG) recognition by PG recognition protein-SA (PGRP-SA). Here, we investigated the mode of this interference by using an in vitro cell free system from larvae of the coleoptran insect Tenebrio molitor. WTA modification on PG had a potent inhibitory effect on PGRP-SA-mediated Toll proteolytic cascade activation, and the d-alanylation of WTA enhanced its inhibitory effect. Purified d-alanylated WTA released from PG lost its inhibitory action on both Toll cascade activation and PGRP-SA binding to insoluble PG. The inhibition of PGRP-SA binding to PG by d-alanylated WTA took place not only on polymeric PG but also on WTA-attached disaccharide units of monomeric PG. These results suggest that d-alanylation-mediated evasion requires the covalent bonding of d-alanylated WTA to PG, but not net-like cross-linking structure of PG. [Copyright &y& Elsevier]
- Published
- 2011
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- View/download PDF
25. Peptidoglycan activation of the proPO-system without a peptidoglycan receptor protein (PGRP)?
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Liu, Haipeng, Wu, Chenglin, Matsuda, Yasuyuki, Kawabata, Shun-ichiro, Lee, Bok Luel, Söderhäll, Kenneth, and Söderhäll, Irene
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- *
PEPTIDOGLYCANS , *PEPTIDE antibiotics , *GRAM-negative bacteria , *CARRIER proteins , *PATHOGENIC microorganisms , *NATURAL immunity , *SERINE proteinases - Abstract
Abstract: Recognition of microbial polysaccharide by pattern recognition receptors triggers the prophenoloxidase (proPO) cascade, resulting in melanin synthesis and its deposition on the surface of invading pathogens. Several masquerade-like proteins and serine proteinase homologues have been shown to be involved in the proPO activation in insects. In this study, a novel serine proteinase homologue, Pl-SPH2, was found and isolated as a 30kDa protein from hemocytes of the freshwater crayfish, Pacifastacus leniusculus, by its binding property to a partially lysozyme digested or TCA-treated insoluble Lysine (Lys)-type peptidoglycan (PGN) and soluble polymeric Lys-type PGN. Two other proteins, the Pl-SPH1 and lipopolysaccharide- and β-1,3-glucan-binding protein (LGBP) were also found in the several different PGN-binding assays. However no PGRP homologue was detected. Neither was any putative PGRP found after searching available crustacean sequence databases. If RNA interference of Pl-SPH2, Pl-SPH1 or LGBP in the crayfish hematopoietic tissue cell culture was performed, it resulted in lower PO activity following activation of the proPO-system by soluble Lys-type PGN. Taken together, we report for the first time that Lys-type PGN is a trigger of proPO-system activation in a crustacean and that two Pl-SPHs are involved in this activation possibly by forming a complex with LGBP and without a PGRP. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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- View/download PDF
26. Three Pairs of Protease-Serpin Complexes Cooperatively Regulate the Insect Innate Immune Responses.
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Jiang, Rui, Kim, Eun-Hye, Gong, Ji-Hee, Kwon, Hyun-Mi, Kim, Chan-Hee, Ryu, Kyoung-Hwa, Park, Ji-Won, Kurokawa, Kenji, Zhang, Jinghai, Gubb, David, and Lee, Bok-Luel
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PROTEOLYTIC enzymes , *SERPINS , *SERINE proteinases , *IMMUNE response , *ENZYME activation - Abstract
Serpins are known to be necessary for the regulation of several serine protease cascades. However, the mechanisms of how serpins regulate the innate immune responses of invertebrates are not well understood due to the uncertainty of the identity of the serine proteases targeted by the serpins. We recently reported the molecular activation mechanisms of three serine protease-mediated Toll and melanin synthesis cascades in a large beetle, Tenebrio molitor. Here, we purified three novel serpins (SPN4O, SPN55, and SPN48) from the hemolymph of T. molitor. These serpins made specific serpin-serine protease pairs with three Toll cascade-activating serme proteases, such as modular serine protease, Spätzle-processing enzyme-activating enzyme, and Spätzle-processing enzyme and cooperatively blocked the Toll signaling cascade and β-1,3-glucanmediated melanin biosynthesis. Also, the levels of SPN4O and SPN55 were dramatically increased in vivo by the injection of a Toll ligand, processed Spätzle, into Tenebrio larvae. This increase in SPN40 and SPN55 levels indicates that these serpins function as inducible negative feedback inhibitors. Unexpectedly, SPN55 and SPN48 were cleaved at Tyr and Glu residues in reactive center loops, respectively, despite being targeted by trypsin-like Spatzleprocessing enzyme-activating enzyme and Spätzle-processing enzyme. These cleavage patterns are also highly similar to those of unusual mammalian serpins involved in blood coagulation and blood pressure regulation, and they may contribute to highly specific and timely inactivation of detrimental serine proteases during innate immune responses. Taken together, these results demonstrate the specific regulatory evidences of innate immune responses by three novel serpins. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
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27. The Triacylated ATP Binding Cluster Transporter Substrate-binding Lipoprotein of Staphylococcus aureus Functions as a Native Ligand for Toll-like Receptor.
- Author
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Kurokawa, Kenji, Lee, Hanna, Roh, Kyung-Baeg, Asanuma, Miwako, Kim, Young Sook, Nakayama, Hiroshi, Shiratsuchi, Akiko, Choi, Youngnim, Takeuchi, Osamu, Kang, Hee Jung, Dohmae, Naoshi, Nakanishi, Yoshinobu, Akira, Shizuo, Sekimizu, Kazuhisa, and Lee, Bok Luel
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LIPOPROTEINS , *GRAM-negative bacteria , *MYCOPLASMA , *STAPHYLOCOCCUS aureus , *ADENOSINE triphosphate , *MACROPHAGES , *GRAM-positive bacteria - Abstract
Some synthetic lipopeptides, in addition to native lipoproteins derived from both Gram-negative bacteria and mycoplasmas, are known to activate TLR2 (Toll-like receptor 2). However, the native lipoproteins inherent to Gram-positive bacteria, which function as TLR2 ligands, have not been characterized. Here, we have purified a native lipoprotein to homogeneity from Staphylococcus aureus to study as a native TLR2 ligand. The purified 33-kDa lipoprotein was capable of stimulating TLR2 and was identified as a triacylated SitC lipoprotein, which belongs to a family of ATP binding cluster (ABC) transporter substrate-binding proteins. Analyses of the SitC-mediated production of cytokine using mouse peritoneal macrophages revealed that the SitC protein (3 nM) induced the production of tumor necrosis factor-α and interleukin-6. Moreover, analysis of knock-out mice showed that SitC required TLR2 and MyD88, but not TLR1 or TLR6, for the induction of cytokines. In addition to the S. aureus SitC lipoprotein, we purified two other native ABC transporter substrate-binding lipoproteins from Bacillus subtilis and Micrococcus luteus, which were both shown to stimulate TLR2. These results demonstrate that S. aureus SitC lipoprotein is triacylated and that the ABC transporter substrate-binding lipoproteins of Gram-positive bacteria function as native ligands for TLR2. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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28. A Novel Protein Acts as a Negative Regulator of Prophenoloxidase Activation and Melanization in the Freshwater Crayfish Pacifastacus IeniuscuIus.
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Söderhäll, Irene, Wu, Chenglin, Novotny, Marian, Lee, Bok Luel, and Söderhäll, Kenneth
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CRAYFISH , *MELANOGENESIS , *POLYPHENOL oxidase , *QUINONE , *HEMOLYMPH , *TENEBRIONIDAE , *IMMUNE system - Abstract
Melanization is an important immune component of the innate immune system of invertebrates and is vital for defense as well as for wound healing. In most invertebrates melanin synthesis is achieved by the prophenoloxidase-activating system, a proteolytic cascade similar to vertebrate complement. Even though melanin formation is necessary for host defense in crustaceans and insects, the process needs to be tightly regulated because of the hazard to the animal of unwanted production of quinone intermediates and melanization in places where it is not suitable. In the present study we have identified a new melanization inhibition protein (MIP) from the hemolymph of the crayfish, Pacifastacus leniusculus. Crayfish MIP has a similar function as the insect MIP molecule we recently discovered in the beetle Tenebrio molitor but interestingly has a completely different sequence. Crayfish MIP as well as Tenebrio MIP do not affect phenoloxidase activity in itself but instead interfere with the melanization reaction from quinone compounds to melanin. Importantly, crayfish MIP in contrast to Tenebrio MIP contains a fibrinogen-like domain, most similar to the substrate recognition domain of vertebrate L-flcolins. Surprisingly, an Asp-rich region similar to that found in ficolins that is likely to be involved in Ca[sub2+] binding is present in crayfish MIP. However, crayfish MIP did not show any hemagglutinating activity as is common for the vertebrate ficolins. A mutant form of MIP with a deletion lacking four Asp amino acids from the Asp-rich region lost most of its activity, implicating that this part of the protein is involved in regulating the prophenoloxidase activating cascade. Overall, a new negative regulator of melanization was identified in freshwater crayfish that shows interesting parallels with proteins (i.e. ficolins) involved in vertebrate immune response. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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- View/download PDF
29. Interactions between Mycoplasma pulmonis and immune systems in the mealworm beetle, Tenebrio molitor.
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Lim, Sooa, Yun, Hwa-Kyung, Kang, Ki Mo, Lee, Bok Luel, Won, Ran, and Lee, In Hee
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- *
TENEBRIO molitor , *MYCOPLASMA , *BACTERIAL cell walls , *IMMUNE system , *PEPTIDE antibiotics , *CELL membranes , *BILAYER lipid membranes , *LECITHIN - Abstract
Mycoplasmas, the smallest self-replicating organisms, are unique in that they lack cell walls but possess distinctive plasma membranes containing sterol acquired from their growth environment. Although mycoplasmas are known to be successful pathogens in a wide range of animal hosts, including humans, the molecular basis for their virulence and interaction with the host immune systems remains largely unknown. This study was conducted to elucidate the biochemical relationship between mycoplasma and the insect immune system. We investigated defense reactions of Tenebrio molitor that were activated in response to infection with Mycoplasma pulmonis. The results revealed that T. molitor larvae were more resistant to mycoplasma infection than normal bacteria equipped with cell walls. Intruding M. pulmonis cells were effectively killed by toxins generated from activation of the proPO cascade in hemolymph, but not by cellular reactions or antimicrobial peptides. It was determined that these different anti-mycoplasma effects of T. molitor immune components were primarily attributable to surface molecules of M. pulmonis such as phospholipids occurring in the outer leaflet of the membrane lipid bilayer. While phosphatidylcholine, a phospholipid derived from the growth environment, contributed to the resistance of M. pulmonis against antimicrobial peptides produced by T. molitor , phosphatidylglycerol was responsible for triggering activation of the proPO cascade. Image 1 • We investigated the immune reactions of Tenebrio molitor against mycoplasma. • T. molitor larvae were more resistant to mycoplasma infection than normal bacteria with cell wall. • Intruding mycoplasma into the hemocoel was effectively killed by the prophenoloxidase system occurring in the hemolymph. • Anti-mycoplasma activity of T. molitor was attributable to phospholipids occurring in the outer leaflet of mycoplasma membrane. • Phosphatidylglycerol was responsible for triggering activation of the prophenoloxidase cascade in the hemolymph. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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30. Burkholderia gut symbiont modulates titer of specific juvenile hormone in the bean bug Riptortus pedestris.
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Lee, Junbeom, Kim, Chan-Hee, Jang, Ho Am, Kim, Jiyeun Kate, Kotaki, Toyomi, Shinoda, Tetsuro, Shinada, Tetsuro, Yoo, Jin-Wook, and Lee, Bok Luel
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JUVENILE hormones , *BURKHOLDERIA , *INSECT development , *INSECT hosts , *TITERS - Abstract
Recent studies have provided molecular evidence that gut symbiotic bacteria modulate host insect development, fitness and reproduction. However, the molecular mechanisms through which gut symbionts regulate these aspects of host physiology remain elusive. To address these questions, we prepared two different Riptortus-Burkholderia insect models, Burkholderia gut symbiont-colonized (Sym) Riptortus pedestris insects and gut symbiont-noncolonized (Apo) insects. Upon LC-MS analyses, juvenile hormone III skipped bisepoxide (JHSB 3) was newly identified from Riptortus Apo- and Sym-female and male adults' insect hemolymph and JHSB 3 titer in the Apo- and Sym-female insects were measured because JH is important for regulating reproduction in adult insects. The JHSB 3 titer in the Sym-females were consistently higher compared to those of Apo-females. Since previous studies reported that Riptortus hexamerin-α and vitellogenin proteins were upregulated by the topical abdominal application of a JH-analog, chemically synthesized JHSB 3 was administered to Apo-females. As expected, the hexamerin-α and vitellogenin proteins were dramatically increased in the hemolymph of JHSB 3 -treated Apo-females, resulting in increased egg production compared to that in Sym-females. Taken together, these results demonstrate that colonization of Burkholderia gut symbiont in the host insect stimulates biosynthesis of the heteroptera-specific JHSB 3 , leading to larger number of eggs produced and enhanced fitness in Riptortus host insects. • Heteroptera-specific JHSB 3 is a bona fide juvenile hormone in R. pedestris insect. • The Burkholderia gut symbiont modulates titter of JHSB 3 in Riptortus female insect. • The expression of hemolymph proteins are induced by topical application of JHSB 3. • This study describes molecular relationship between gut-symbiont and host juvenile hormone. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
31. Mannose-binding lectin without an aid of its associated serine proteases alters lipopolysaccharide-mediated cytokine/chemokine secretion from human endothelial cells
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Kang, Hee Jung, Lee, Sun-Mi, Lee, Hyeon-Hwa, Kim, Ji Yeon, Lee, Byung-Chul, Yum, Jung-Sun, Moon, Hong Mo, and Lee, Bok Luel
- Published
- 2007
- Full Text
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32. Biochemical characterization and function of novel pattern molecules from Staphylococcus aureus
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Ma, Ying Jie, Kim, Chan-Hee, Lee, Hyeon-Hwa, Lee, Bok-Luel, and Garred, Peter
- Published
- 2007
- Full Text
- View/download PDF
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