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1.
Biol Pharm Bull ; 47(3): 713-722, 2024 Mar 27.
Article in English | MEDLINE | ID: mdl-38432946

ABSTRACT

Diabetic retinopathy (DR) can cause visual impairment and blindness, and the increasing global prevalence of diabetes underscores the need for effective therapies to prevent and treat DR. Therefore, this study aimed to evaluate the protective effect of pemafibrate treatment against DR, using a Spontaneously Diabetic Torii (SDT) fatty rat model of obese type 2 diabetes. SDT fatty rats were fed either a diet supplemented with pemafibrate (0.3 mg/kg/d) for 16 weeks, starting at 8 weeks of age (Pf SDT fatty: study group), or normal chow (SDT fatty: controls). Normal chow was provided to Sprague-Dawley (SD) rats (SD: normal controls). Electroretinography (ERG) was performed at 8 and 24 weeks of age to evaluate the retinal neural function. After sacrifice, retinal thickness, number of retinal folds, and choroidal thickness were evaluated, and immunostaining was performed for aquaporin-4 (AQP4). No significant differences were noted in food consumption, body weight, or blood glucose level after pemafibrate administration. Triglyceride levels were reduced, and high-density lipoprotein cholesterol levels were increased. Extension of oscillatory potential (OP)1 and OP3 waves on ERG was suppressed in the Pf SDT fatty group. Retinal thickness at 1500 microns from the optic disc improved in the Pf SDT fatty group. No significant improvements were noted in choroidal thickness or number of retinal folds. Quantitative analyses showed that AQP4-positive regions in the retinas were significantly larger in the Pf SDT fatty group than in the SDT fatty group. The findings suggest that pemafibrate treatment can exert protective effects against DR.


Subject(s)
Benzoxazoles , Butyrates , Diabetes Mellitus, Type 2 , Diabetic Retinopathy , Rats , Animals , Diabetic Retinopathy/drug therapy , Diabetic Retinopathy/prevention & control , Rats, Sprague-Dawley , Disease Models, Animal
2.
Invest Ophthalmol Vis Sci ; 64(10): 20, 2023 07 03.
Article in English | MEDLINE | ID: mdl-37459063

ABSTRACT

Purpose: Chronic inflammation plays a pivotal role in the pathology of proliferative diabetic retinopathy (PDR), in which biological alterations of retinal glial cells are one of the key elements. The phosphorylation of αB-crystallin/CRYAB modulates its molecular dynamics and chaperone activity, and attenuates αB-crystallin secretion via exosomes. In this study, we investigated the effect of phosphorylated αB-crystallin in retinal Müller cells on diabetic mimicking conditions, including interleukin (IL)-1ß stimuli. Methods: Human retinal Müller cells (MIO-M1) were used to examine gene and protein expressions with real-time quantitative PCR, enzyme linked immunosorbent assay (ELISA), and immunoblot analyses. Cell apoptosis was assessed by Caspase-3/7 assay and TdT-mediated dUTP nick-end labeling staining. Retinal tissues isolated from the Spontaneously Diabetic Torii (SDT) fatty rat, a type 2 diabetic animal model with obesity, and fibrovascular membranes from patients with PDR were examined by double-staining immunofluorescence. Results: CRYAB mRNA was downregulated in MIO-M1 cells with the addition of 10 ng/mL IL-1ß; however, intracellular αB-crystallin protein levels were maintained. The αB-crystallin serine 59 (Ser59) residue was phosphorylated with IL-1ß application in MIO-M1 cells. Cell apoptosis in MIO-M1 cells was induced by CRYAB knockdown. Immunoreactivity for Ser59-phosphorylated αB-crystallin and glial fibrillary acidic protein was colocalized in glial cells of SDT fatty rats and fibrovascular membranes. Conclusions: The Ser59 phosphorylation of αB-crystallin was modulated by IL-1ß in Müller cells under diabetic mimicking inflammatory conditions, suggesting that αB-crystallin contributes to the pathogenesis of PDR through an anti-apoptotic effect.


Subject(s)
Diabetic Retinopathy , Ependymoglial Cells , Humans , Rats , Animals , Phosphorylation , Ependymoglial Cells/metabolism , Interleukin-1beta/pharmacology , Interleukin-1beta/metabolism , alpha-Crystallin B Chain/metabolism , Apoptosis
3.
Front Immunol ; 13: 1001179, 2022.
Article in English | MEDLINE | ID: mdl-36389807

ABSTRACT

Immunological aging is a critical event that causes serious functional impairment in the innate immune system. However, the identification markers and parameters are still poorly understood in immunological aging of myeloid lineage cells. Here, we show that a downregulation of lymphocyte antigen 6 complex locus G6D (Ly-6G) observed in aged mouse neutrophils could serve as a novel marker for the prediction of age-associated functional impairment in the neutrophils. Ly-6G expression was significantly downregulated in the bone marrow (BM) neutrophils of aged mice compared to young mice confirmed by flow cytometry analysis. In vitro experiments using BM-isolated neutrophils showed significant downregulations in their activities, such as phagocytosis, reactive oxygen species (ROS) production, interleukin (IL)-1ß production, neutrophil extracellular trap (NET) formation, and migration as well as bacterial clearance, in the aged mouse neutrophils compared to those of young mice counterparts. Interestingly, the magnitudes of functional parameters were strongly correlated with the Ly-6G expression in the neutrophils. Thus, our results suggest that downregulation of Ly-6G reflects the age-associated functional attenuation of the neutrophils.


Subject(s)
Extracellular Traps , Neutrophils , Mice , Animals , Down-Regulation , Phagocytosis , Histocompatibility Antigens/metabolism , Lymphocytes
4.
Biomed Hub ; 7(3): 106-114, 2022.
Article in English | MEDLINE | ID: mdl-36262406

ABSTRACT

Purpose: The aim of this study was to investigate the effects of different anesthetic agents on electroretinograms (ERGs) in Spontaneously Diabetic Torii fatty rats (SDT fatty rats). Methods: The ERG recordings were measured under general anesthesia using pentobarbital or a combination of medetomidine hydrochloride, midazolam, and butorphanol (MMB) tartrate anesthesia in 12 9-week-old normal Sprague-Dawley rats (Jcl:SD rats) and 16 SDT fatty rats. Each animal model was divided into 2 groups, the pentobarbital group and MMB group. The amplitudes and peak times of the a- and b-waves and oscillatory potentials (OPs) were measured from 0.0001 candela per square meter (cd.s/m2) to 10.0 cd.s/m2. Results: The amplitude of the a-wave was significantly higher in the MMB group of Jcl:SD rats, but there was no significant difference in amplitude between the two groups of SDT fatty rats. There was no significant difference in the OP1 amplitude between both groups of Jcl:SD rats, but the OP1 amplitude was significantly higher in the MMB group of SDT fatty rats. The OP2 amplitude was significantly higher in the pentobarbital group in both the Jcl:SD rats and SDT fatty rats. There was no significant difference in the OP3 amplitude between the Jcl:SD and SDT fatty rat groups. The amplitude of the OP4 waves was significantly higher in the MMB group for both Jcl:SD and SDT fatty rats. There was no significant difference in the sums of the OP1 to OP4 (ΣOPs) amplitudes between the Jcl:SD and SDT fatty rat groups. There was no significant difference in the b-wave amplitude between the Jcl:SD rat groups, but the b-wave amplitude was significantly higher in the SDT fatty rats that received pentobarbital. The peak times for a-wave, OP1, OP2, OP3, OP4, and ΣOPs were significantly longer in the pentobarbital group of SD rats. The peak time of the b-wave was significantly longer in the MMB group of Jcl:SD rats, but the same result was obtained in the SDT fatty rats except that there was no significant difference in the a-wave. Conclusion: The overall ERG results vary depending on the anesthetic agent used. The OPs can be observed in detail when using MMB. Since the SDT fatty rat is a diabetic model animal, we recommend MMB as the anesthesia of choice when studying the OP waves in detail.

5.
DNA Res ; 29(3)2022 May 27.
Article in English | MEDLINE | ID: mdl-35608323

ABSTRACT

Partial bacterial genome reduction by genome engineering can improve the productivity of various metabolites, possibly via deletion of non-essential genome regions involved in undesirable metabolic pathways competing with pathways for the desired end products. However, such reduction may cause growth defects. Genome reduction of Bacillus subtilis MGB874 increases the productivity of cellulases and proteases but reduces their growth rate. Here, we show that this growth defect could be restored by silencing redundant or less important genes affecting exponential growth by manipulating the global transcription factor AbrB. Comparative transcriptome analysis revealed that AbrB-regulated genes were upregulated and those involved in central metabolic pathway and synthetic pathways of amino acids and purine/pyrimidine nucleotides were downregulated in MGB874 compared with the wild-type strain, which we speculated were the cause of the growth defects. By constitutively expressing high levels of AbrB, AbrB regulon genes were repressed, while glycolytic flux increased, thereby restoring the growth rate to wild-type levels. This manipulation also enhanced the productivity of metabolites including γ-polyglutamic acid. This study provides the first evidence that undesired features induced by genome reduction can be relieved, at least partly, by manipulating a global transcription regulation system. A similar strategy could be applied to other genome engineering-based challenges aiming toward efficient material production in bacteria.


Subject(s)
Bacillus subtilis , Bacterial Proteins , Bacillus subtilis/genetics , Bacillus subtilis/metabolism , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Gene Expression Regulation , Gene Expression Regulation, Bacterial , Genome, Bacterial , Transcription Factors/genetics , Transcription Factors/metabolism
6.
J Diabetes Res ; 2020: 3058547, 2020.
Article in English | MEDLINE | ID: mdl-32832559

ABSTRACT

Spontaneously Diabetic Torii (SDT) fatty rat is a novel animal model of type 2 diabetes with obesity. SDT fatty rats develop hyperglycemia, dyslipidemia, and other diabetic complications including ocular disorders; however, diabetic cataract formation in SDT fatty rats has not been fully investigated. The aim of the current study was to investigate the characteristics of cataract in the SDT fatty rats. The mean body weight of SDT fatty rats is larger than that of age-matched Sprague-Dawley (SD) rats and control animals until 8 weeks of age, and thereafter the growing speed decreased until the end of observation at 16 weeks of age. Blood glucose levels in SDT fatty rats were significantly higher than those in SD rats throughout the observational period. Slit-lamp examination revealed that no rats showed cataract formation at 5 weeks of age; however, SDT fatty rats gradually developed cortical cataract and posterior subcapsular cataract, both of which are the common types of cataract in patients with type 2 diabetes. The levels of glucose, sorbitol, and fructose were higher in the lens tissues of SDT fatty rats in comparison with that of SD rats. Furthermore, the level of 4-hydroxynonenal (4-HNE) was higher in the lens of SDT fatty rats than in that of SD rats. By contrast, total glutathione (GSH) concentration was lower in the lens of SDT fatty rats than in that of SD rats. The present study demonstrated that the cataractogenesis in SDT fatty rats resembled human diabetic cataract formation, indicating that SDT fatty rats serve as a potential animal model in researches on human cataract associated with type 2 diabetes and obesity.


Subject(s)
Cataract/etiology , Diabetes Mellitus, Experimental/complications , Diabetic Retinopathy/etiology , Animals , Body Weight , Cataract/diagnosis , Cataract/metabolism , Cataract/pathology , Diabetes Mellitus, Experimental/diagnosis , Diabetes Mellitus, Experimental/metabolism , Diabetes Mellitus, Experimental/pathology , Diabetes Mellitus, Type 2/complications , Diabetes Mellitus, Type 2/pathology , Diabetic Retinopathy/diagnosis , Diabetic Retinopathy/metabolism , Diabetic Retinopathy/pathology , Disease Models, Animal , Disease Progression , Humans , Male , Obesity/complications , Obesity/metabolism , Obesity/pathology , Oxidative Stress/physiology , Rats , Rats, Sprague-Dawley , Slit Lamp Microscopy
7.
Vet Pathol ; 57(1): 192-199, 2020 01.
Article in English | MEDLINE | ID: mdl-31221040

ABSTRACT

After initiation with 7,12-dimethylbenz[a]anthracene (DMBA), the promoting potential of 12-O-tetradecanoylphorbol-13-acetate (TPA) on skin tumor development can be detected by an ultra-short-term skin carcinogenicity bioassay using Tg-rasH2 mice. In the present study, 10 chemicals were assessed using this ultra-short-term bioassay as a first step to validate this practical and easy-to-use skin carcinogenicity bioassay. These chemicals belonged to 4 categories: dermal vehicles (acetone, 99.5% ethanol, anhydrous ethanol, and Vaseline), skin noncarcinogens (oleic acid diethanolamine condensate, benzethonium chloride, and diisopropylcarbodiimide), skin tumor promoters (TPA and benzoyl peroxide), and a skin carcinogen (4-vinyl-1-cyclohexene diepoxide). In a first study, DMBA was used as the initiator at a dose of 50 µg according to previous data, but skin tumors were observed in the no-treatment and vehicle groups. Therefore, the dose of DMBA for skin tumor initiation was reevaluated using 12.5 or 25 µg, with 12.5 µg found to be sufficient for initiation activity. In the ultra-short-term assay, the vehicles and skin noncarcinogens were negative while the skin tumor promoters and the skin carcinogen were positive. The detection of skin tumor promotion and carcinogenicity was feasible in only 8 weeks. In conclusion, this carcinogenicity bioassay may represent a useful tool for the assessment of the carcinogenicity potential of topically applied chemicals.


Subject(s)
Carcinogenicity Tests/methods , Carcinogens/administration & dosage , Skin Neoplasms/pathology , Tetradecanoylphorbol Acetate/administration & dosage , Animals , Female , Genes, ras/genetics , Humans , Mice , Mice, Transgenic , Skin/pathology , Skin Neoplasms/chemically induced
8.
AMB Express ; 8(1): 110, 2018 Jul 03.
Article in English | MEDLINE | ID: mdl-29971620

ABSTRACT

Poly-gamma-glutamic acid (PGA) is a promising bio-based polymer that shares many functions with poly (acrylic acid) and its derivatives. Thus, technologies for efficient production and molecular size control of PGA are required to expand the application of this useful biopolymer. In Bacillus strains, PGA is synthesized by the PgsBCA protein complex, which is encoded by the pgsBCA gene operon, otherwise is known as ywsC and ywtAB operons and/or capBCA operon. Hence, we investigated responsible components of the PgsBCA complex in B. subtilis for over-production of PGA. In particular, we constructed genomic pgsBCA gene-deletion mutants of B. subtilis. And also, we assembled high copy-number plasmids harboring σA-dependent promoter, leading to high-level expression of all combinations of pgsBCA, pgsBC, pgsBA, pgsCA, pgsB, pgsC, and/or pgsA genes. Subsequently, PGA production of the transformed B. subtilis mutant was determined in batch fermentation using medium supplemented with L-glutamate. PGA production by the transformants introduced with pgsBC genes (lacking the genomic pgsBCA genes) was 26.0 ± 3.0 g L-1, and the enantiomeric ratio of D- and L-glutamic acid (D/L-ratio) in the produced PGA was 5/95. In contrast, D/L-ratio of produced PGA by the transformants introduced with pgsBCA genes (control strains) was 75/25. In conclusion, B. subtilis without pgsA gene could over-produce PGA with an L-rich enantiomeric ratio.

9.
Biosci Biotechnol Biochem ; 79(12): 2073-80, 2015.
Article in English | MEDLINE | ID: mdl-26120821

ABSTRACT

Bacterial bio-production during the stationary phase is expected to lead to a high target yield because the cells do not consume the substrate for growth. Bacillus subtilis is widely used for bio-production, but little is known about the metabolism during the stationary phase. In this study, we focused on the dipicolinic acid (DPA) production by B. subtilis and investigated the metabolism. We found that DPA production competes with acetoin synthesis and that acetoin synthesis genes (alsSD) deletion increases DPA productivity by 1.4-fold. The mutant showed interesting features where the glucose uptake was inhibited, whereas the cell density increased by approximately 50%, resulting in similar volumetric glucose consumption to that of the parental strain. The metabolic profiles revealed accumulation of pyruvate, acetyl-CoA, and the TCA cycle intermediates in the alsSD mutant. Our results indicate that alsSD-deleted B. subtilis has potential as an effective host for stationary-phase production of compounds synthesized from these intermediates.


Subject(s)
Acetoin/metabolism , Bacillus subtilis/metabolism , Biotechnology , Picolinic Acids/metabolism , Bacillus subtilis/cytology , Bacillus subtilis/genetics , Bacillus subtilis/growth & development , Bacterial Proteins/genetics , Culture Techniques , Glucose/metabolism , Intracellular Space/metabolism
10.
J Biotechnol ; 179: 42-9, 2014 Jun 10.
Article in English | MEDLINE | ID: mdl-24667539

ABSTRACT

The great potential of Bacillus subtilis to produce biomaterials would be further enhanced by the development of strains with deletions of non-essential genomic regions. Here, using stationary (13)C-metabolic flux analysis ((13)C-MFA), we investigated the metabolism during cellulase production by the genome-reduced B. subtilis strain MGB874. We transformed MGB874 and wild-type strains with the heterologous cellulase gene, and cultured these on a synthetic medium containing glucose as carbon source. The addition of glutamate and the genome reduction enhanced cellulase production, which led us to use (13)C-MFA to assess the effects of glutamate addition and gene deletions on metabolism. We found that there was a significant increase in the flux in the pentose phosphate (PP) pathway, whereas the fluxes of reactions from acetyl-CoA to α-ketoglutarate were repressed in the presence of glutamate. We hypothesize that the increase in the PP pathway flux was caused by the decrease of citrate synthase flux through the accumulation of glycolytic intermediates. Excess NADPH produced by the PP pathway may affect the increase in cellulase production. Furthermore, the fluxes on glycolysis and the acetate formation of the cellulase-producing wild-type strain were significantly larger than that of the cellulase-producing MGB874 strain when the strains were cultured with glucose and glutamate.


Subject(s)
Bacillus subtilis/genetics , Bacterial Proteins/biosynthesis , Carbon Isotopes/analysis , Cellulase/biosynthesis , Glutamic Acid/metabolism , Bacillus subtilis/classification , Bacillus subtilis/growth & development , Bacterial Proteins/genetics , Cellulase/genetics , Citrate (si)-Synthase/metabolism , Culture Media/chemistry , Gene Deletion , Gene Expression Regulation, Bacterial , Genes, Essential , Genome, Bacterial , Glucose/metabolism , Glycolysis , Pentose Phosphate Pathway
11.
Microb Cell Fact ; 12: 18, 2013 Feb 18.
Article in English | MEDLINE | ID: mdl-23419162

ABSTRACT

BACKGROUND: The Bacillus subtilis genome-reduced strain MGB874 exhibits enhanced production of exogenous extracellular enzymes under batch fermentation conditions. We predicted that deletion of the gene for RocG, a bi-functional protein that acts as a glutamate dehydrogenase and an indirect repressor of glutamate synthesis, would improve glutamate metabolism, leading to further increased enzyme production. However, deletion of rocG dramatically decreased production of the alkaline cellulase Egl-237 in strain MGB874 (strain 874∆rocG). RESULTS: Transcriptome analysis and cultivation profiles suggest that this phenomenon is attributable to impaired secretion of alkaline cellulase Egl-237 and nitrogen starvation, caused by decreased external pH and ammonium depletion, respectively. With NH3-pH auxostat fermentation, production of alkaline cellulase Egl-237 in strain 874∆rocG was increased, exceeding that in the wild-type-background strain 168∆rocG. Notably, in strain 874∆rocG, high enzyme productivity was observed throughout cultivation, possibly due to enhancement of metabolic flux from 2-oxoglutarate to glutamate and generation of metabolic energy through activation of the tricarboxylic acid (TCA) cycle. The level of alkaline cellulase Egl-237 obtained corresponded to about 5.5 g l-1, the highest level reported so far. CONCLUSIONS: We found the highest levels of production of alkaline cellulase Egl-237 with the reduced-genome strain 874∆rocG and using the NH3-pH auxostat. Deletion of the glutamate dehydrogenase gene rocG enhanced enzyme production via a prolonged auxostat fermentation, possibly due to improved glutamate synthesis and enhanced generation of metabolism energy.


Subject(s)
Bacillus subtilis/metabolism , Cellulases/metabolism , Glutamic Acid/metabolism , Ammonia/metabolism , Bacillus subtilis/growth & development , Cellulases/genetics , Citric Acid Cycle , Down-Regulation , Gene Expression Profiling , Glutamate Dehydrogenase/genetics , Glutamate Dehydrogenase/metabolism , Hydrogen-Ion Concentration , Ketoglutaric Acids/metabolism , Sequence Deletion
12.
Microbiologyopen ; 1(2): 115-34, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22950019

ABSTRACT

To elucidate the biological functions of small (p)ppGpp synthetases YjbM and YwaC of Bacillus subtilis, we constructed RIK1059 and RIK1066 strains carrying isopropyl-ß-D-thiogalactopyranoside (IPTG) inducible yjbM and ywaC genes, respectively, in the ΔrelA ΔyjbM ΔywaC triple mutant background. While the uninduced and IPTG-induced RIK1059 cells grew similarly in LB medium, the growth of RIK1066 cells was arrested following the addition of IPTG during the early exponential growth phase. Induction of YwaC expression by IPTG also severely decreased the intracellular GTP level and drastically altered the transcriptional profile in RIK1066 cells. Sucrose density gradient centrifugation analysis of the ribosomal fractions prepared from the IPTG-induced RIK1066 cells revealed three peaks corresponding to 30S, 50S, and 70S ribosome particles, and also an extra peak. Electron microscope studies revealed that the extra peak fraction contained dimers of 70S ribosomes, which were similar to the Escherichia coli 100S ribosomes. Proteomic analysis revealed that the 70S dimer contained an extra protein, YvyD, in addition to those found in the 70S ribosome. Accordingly, strain resulting from the disruption of the yvyD gene in the RIK1066 cells was unable to form 70S dimers following IPTG induction, indicating that YvyD is required for the formation of these dimers in B. subtilis.

13.
Microb Cell Fact ; 11: 74, 2012 Jun 08.
Article in English | MEDLINE | ID: mdl-22681752

ABSTRACT

BACKGROUND: Bacillus subtilis genome-reduced strain MGB874 exhibits enhanced production of exogenous extracellular alkaline cellulase Egl-237 and subtilisin-like alkaline protease M-protease. Here, we investigated the suitability of strain MGB874 for the production of α-amylase, which was anticipated to provoke secretion stress responses involving the CssRS (Control secretion stress Regulator and Sensor) system. RESULTS: Compared to wild-type strain 168, the production of a novel alkaline α-amylase, AmyK38, was severely decreased in strain MGB874 and higher secretion stress responses were also induced. Genetic analyses revealed that these phenomena were attributable to the decreased pH of growth medium as a result of the lowered expression of rocG, encoding glutamate dehydrogenase, whose activity leads to NH3 production. Notably, in both the genome-reduced and wild-type strains, an up-shift of the external pH by the addition of an alkaline solution improved AmyK38 production, which was associated with alleviation of the secretion stress response. These results suggest that the optimal external pH for the secretion of AmyK38 is higher than the typical external pH of growth medium used to culture B. subtilis. Under controlled pH conditions, the highest production level (1.08 g l(-1)) of AmyK38 was obtained using strain MGB874. CONCLUSIONS: We demonstrated for the first time that RocG is an important factor for secretory enzyme production in B. subtilis through its role in preventing acidification of the growth medium. As expected, a higher external pH enabled a more efficient secretion of the alkaline α-amylase AmyK38 in B. subtilis. Under controlled pH conditions, the reduced-genome strain MGB874 was demonstrated to be a beneficial host for the production of AmyK38.


Subject(s)
Bacillus subtilis/enzymology , Bacterial Proteins/metabolism , Bacterial Secretion Systems , Extracellular Space/metabolism , alpha-Amylases/metabolism , Bacillus subtilis/chemistry , Bacillus subtilis/genetics , Bacterial Proteins/genetics , Extracellular Space/chemistry , Extracellular Space/genetics , Gene Expression Regulation, Bacterial , Hydrogen-Ion Concentration , alpha-Amylases/genetics
14.
Appl Environ Microbiol ; 77(23): 8370-81, 2011 Dec.
Article in English | MEDLINE | ID: mdl-21965396

ABSTRACT

Genome reduction strategies to create genetically improved cellular biosynthesis machineries for proteins and other products have been pursued by use of a wide range of bacteria. We reported previously that the novel Bacillus subtilis strain MGB874, which was derived from strain 168 and has a total genomic deletion of 874 kb (20.7%), exhibits enhanced production of recombinant enzymes. However, it was not clear how the genomic reduction resulted in elevated enzyme production. Here we report that deletion of the rocDEF-rocR region, which is involved in arginine degradation, contributes to enhanced enzyme production in strain MGB874. Deletion of the rocDEF-rocR region caused drastic changes in glutamate metabolism, leading to improved cell yields with maintenance of enzyme productivity. Notably, the specific enzyme productivity was higher in the reduced-genome strain, with or without the rocDEF-rocR region, than in wild-type strain 168. The high specific productivity in strain MGB874 is likely attributable to the higher expression levels of the target gene resulting from an increased promoter activity and plasmid copy number. Thus, the combined effects of the improved cell yield by deletion of the rocDEF-rocR region and the increased specific productivity by deletion of another gene(s) or the genomic reduction itself enhanced the production of recombinant enzymes in MGB874. Our findings represent a good starting point for the further improvement of B. subtilis reduced-genome strains as cell factories for the production of heterologous enzymes.


Subject(s)
Bacillus subtilis/genetics , Bacillus subtilis/metabolism , Enzymes/biosynthesis , Enzymes/genetics , Recombinant Proteins/biosynthesis , Recombinant Proteins/genetics , Gene Dosage , Genome, Bacterial , Glutamic Acid/metabolism , Plasmids , Promoter Regions, Genetic , Sequence Deletion
15.
Biotechnol Lett ; 33(9): 1847-52, 2011 Sep.
Article in English | MEDLINE | ID: mdl-21544609

ABSTRACT

Human interferon-ß (hIFN-ß) was used as a heterologous model protein to investigate the effects of the Bacillus subtilis AmyE propeptide and co-expression of PrsA in enhancing the secretion of heterologous proteins in B. subtilis. Secretion and activity of hIFN-ß with AmyE propeptide increased by more than four-fold compared to that without AmyE propeptide. Moreover, under conditions of co-expressed PrsA, the secretion production and activity of hIFN-ß with AmyE propeptide increased by more than 1.5-fold. AmyE propeptide and co-expression of PrsA thus have an additive effect on enhancing the production of the hIFN-ß in B. subtilis.


Subject(s)
Bacillus subtilis/metabolism , Interferon-beta/metabolism , Bacillus subtilis/genetics , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Biotechnology/methods , Gene Expression , Humans , Interferon-beta/genetics , Lipoproteins/genetics , Lipoproteins/metabolism , Membrane Proteins/genetics , Membrane Proteins/metabolism , Protein Precursors/genetics , Protein Precursors/metabolism , Recombinant Proteins/genetics , Recombinant Proteins/metabolism
16.
Appl Microbiol Biotechnol ; 89(5): 1509-17, 2011 Mar.
Article in English | MEDLINE | ID: mdl-21052990

ABSTRACT

The Gram-positive bacterium, Bacillus subtilis and related species are widely used industrially as hosts for producing enzymes. These species possess a high potential to produce secreted proteins into the culture medium. Nevertheless, the secretion of heterologous proteins by these species is frequently inefficient. In this study, the human interferon-α2b (hIFN-α2b) was used as a heterologous model protein, to investigate the effect of B. subtilis AmyE propeptide in enhancing the secretion of heterologous proteins in B. subtilis. We found that the secretion production and activity of hIFN-α2b with AmyE propeptide increased by more than threefold, compared to that without AmyE propeptide. The maximum amount of secreted hIFN-α2b with propeptide was 14.8 ± 0.6 µg ml⁻¹. In addition, the pro-hIFN-α2b bioactivity reached 5.4 ± 0.5 x 107 U mg⁻¹, which is roughly the same level as that of the non-propeptide hIFN-α2b. These results indicated that AmyE propeptide enhanced the secretion of the hIFN-α2b protein from B. subtilis. This study provides a useful method to enhance the extracellular production of heterologous proteins in B. subtilis.


Subject(s)
Amylases/metabolism , Bacillus subtilis/enzymology , Bacillus subtilis/metabolism , Interferon-alpha/metabolism , Protein Precursors/metabolism , Humans , Recombinant Proteins/metabolism
17.
Mol Biotechnol ; 46(3): 250-7, 2010 Nov.
Article in English | MEDLINE | ID: mdl-20574771

ABSTRACT

In this study, we examined the effects of modifying the C-terminal region of the SecA protein on the production of heterologous proteins in Bacillus subtilis. SecA was selected as a candidate among the components of the Sec system due to its ability to interact directly with both the precursors and membrane translocases. A phylogenetic comparison demonstrated that the C-terminal region is not well conserved among eubacterial SecA proteins. The deletion of the 61 amino acids at the C-terminal region led to an 83% increase in extracellular alkaliphilic Bacillus sp. thermostable alkaline cellulase (Egl-237) activity. Moreover, the productivity of human interferon α (hIFN-α2b) was increased by 2.2-fold compared to the wild-type SecA, by deletion of these 61 amino acids. We indicated that the deletion of the C-terminal domain (CTD) of SecA enhanced the secretion of two different heterologous protein, Egl-237 and hIFN-α2b. This study provides a useful method to enhance the extracellular production of heterologous proteins in B. subtilis.


Subject(s)
Adenosine Triphosphatases/genetics , Bacillus subtilis/metabolism , Bacterial Proteins/biosynthesis , Membrane Transport Proteins/genetics , Adenosine Triphosphatases/chemistry , Amino Acid Sequence , Bacillus subtilis/genetics , Bacterial Proteins/chemistry , Bacterial Proteins/genetics , Blotting, Western , Electrophoresis, Polyacrylamide Gel , Humans , Interferon-alpha/biosynthesis , Interferon-alpha/genetics , Membrane Transport Proteins/chemistry , Molecular Sequence Data , SEC Translocation Channels , SecA Proteins , Sequence Homology, Amino Acid
18.
DNA Res ; 15(2): 73-81, 2008 Apr 30.
Article in English | MEDLINE | ID: mdl-18334513

ABSTRACT

The emerging field of synthetic genomics is expected to facilitate the generation of microorganisms with the potential to achieve a sustainable society. One approach towards this goal is the reduction of microbial genomes by rationally designed deletions to create simplified cells with predictable behavior that act as a platform to build in various genetic systems for specific purposes. We report a novel Bacillus subtilis strain, MBG874, depleted of 874 kb (20%) of the genomic sequence. When compared with wild-type cells, the regulatory network of gene expression of the mutant strain is reorganized after entry into the transition state due to the synergistic effect of multiple deletions, and productivity of extracellular cellulase and protease from transformed plasmids harboring the corresponding genes is remarkably enhanced. To our knowledge, this is the first report demonstrating that genome reduction actually contributes to the creation of bacterial cells with a practical application in industry. Further systematic analysis of changes in the transcriptional regulatory network of MGB874 cells in relation to protein productivity should facilitate the generation of improved B. subtilis cells as hosts of industrial protein production.


Subject(s)
Bacillus subtilis/genetics , Gene Deletion , Gene Expression Regulation, Bacterial , Genome, Bacterial , Industrial Microbiology/methods , Recombinant Proteins/metabolism , Bacillus subtilis/growth & development , Bacillus subtilis/metabolism , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Cellulases/genetics , Cellulases/metabolism , Endopeptidases/genetics , Endopeptidases/metabolism , Genomics/methods , Recombinant Proteins/genetics , Spores, Bacterial
19.
Appl Microbiol Biotechnol ; 76(2): 395-405, 2007 Aug.
Article in English | MEDLINE | ID: mdl-17571258

ABSTRACT

The presence of 11 genes encoding subtilisin-like serine proteases was demonstrated by cloning from the genome of alkaliphilic Bacillus sp. strain KSM-LD1. This strain exoproduces the oxidatively stable alkaline protease LD-1 (Saeki et al. Curr Microbiol, 47:337-340, 2003). Among the 11 genes, six genes encoding alkaline proteases (SA, SB, SC, SD, SE, and LD-1) were expressed in Bacillus hosts. However, the other five genes for subtilisin-like proteases (SF, SG, SH, SI, and SJ) were expressed in neither Bacillus hosts nor Escherichia coli. The deduced amino acid sequences of SA, SB, SC, SF, SG, SH, SI, and SJ showed similarity to those of other subtilisin-like proteases from Bacillus strains with only 38 to 86% identity. The deduced amino acid sequence of SD was completely identical to that of an oxidatively stable alkaline protease from Bacillus sp. strain SD521, and that of SE was almost identical to that of a high-molecular mass subtilisin from Bacillus sp. strain D-6 with 99.7% identity. There are four to nine subtilisin-like serine protease genes in the reported genomes of Bacillus strains. At least 11 genes for the enzymes present in the genome of Bacillus sp. strain KSM-LD1, and this is the greatest number identified to date.


Subject(s)
Bacillus/enzymology , Bacillus/genetics , Genes, Bacterial , Serine Endopeptidases/metabolism , Subtilisins/genetics , Amino Acid Sequence , DNA, Bacterial/genetics , Gene Expression Regulation, Bacterial , Genome, Bacterial , Hydrogen-Ion Concentration , Molecular Sequence Data , Serine Endopeptidases/genetics , Subtilisins/chemistry , Subtilisins/metabolism
20.
Extremophiles ; 11(4): 597-603, 2007 Jul.
Article in English | MEDLINE | ID: mdl-17429572

ABSTRACT

Alkaliphilic Bacillus sp. strain KSM-K16, which produces high-alkaline M-protease, was characterized phenotypically, biochemically and genetically. This strain was identified as Bacillus clausii based on the results of taxonomic studies, including sequencing of the 16S rRNA gene and DNA-DNA hybridization. Seven rRNA operons in the genome were identified by pulsed-field gel electrophoresis. Sequencing of cloned 16S rRNA genes revealed two distinct types of variable region V1. Moreover, some cloned 16S rRNA genes in some of the reference strains of B. clausii had a V1 region of yet another type. The B. clausii strains could clearly be divided into at least two subgroups based on the frequencies of the types of cloned V1 sequence. Bacillus sp. strain KSM-K16 was found to be in a different phylogenetic position from other high-alkaline protease-producing strains of B. clausii.


Subject(s)
Bacillus/classification , DNA, Bacterial/analysis , DNA, Ribosomal/analysis , Genetic Variation , RNA, Ribosomal, 16S , Ribotyping , Serine Endopeptidases/metabolism , Subtilisins/metabolism , Bacillus/enzymology , Bacillus/genetics , Base Sequence , Cloning, Molecular , Electrophoresis, Gel, Pulsed-Field , Genotype , Molecular Sequence Data , Nucleic Acid Hybridization , Operon , Phenotype , Phylogeny , Sequence Analysis, DNA
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