Preventive effects of N‐acetyl‐l‐cysteine against imidacloprid intoxication on Bombyx mori larvae

Imidacloprid, a widely used neonicotinoid insecticide, is toxic to silkworm (Bombyx mori). To explore whether N‐acetyl‐l ‐cysteine (NAC) has an effect on preventing silkworm (B. mori) from toxification caused by imidacloprid, we fed the fifth‐instar larvae with mulberry leaves dipped in 200 mg/L NAC solution before exposing in imidacloprid, and investigated the silkworm growth, survival rate, feed efficiency, cocoon quality, and the activities of antioxidant enzymes in midgut. The results showed that addition of NAC could significantly increase body weight, survival rate, and feed efficiency of imidacloprid poisoned silkworm larvae (P < 0.05), as well as cocoon mass, cocoon shell mass, and the ratio of cocoon shell (P < 0.05). Furthermore, it could significantly promote the activities of the antioxidant enzymes including superoxide dismutase, catalase, and glutathione peroxide in the midgut of fifth‐instar larvae under imidacloprid exposure at the late stage of treatment. In addition, it also could downregulate the malondialdehyde content. The results of our findings proved that the added NAC may have some beneficial effects on protection or restoration of antioxidant balance in imidacloprid exposed larvae.     

Establishment and clinical application of a highly sensitive enzyme immunoassay for determination of N‐acetyl‐seryl‐aspartyl‐lysyl‐proline

N‐acetyl‐seryl‐aspartyl‐lysyl‐proline (AcSDKP) is a natural inhibitor of pluripotent hematopoietic stem cell proliferation and is normally found in human plasma. Because AcSDKP is hydrolyzed by the N‐terminal active site of angiotensin converting enzyme and partially eliminated in urine, its plasma level is a result of a complex balance between its production, hydrolysis by ACE, and renal elimination. In this study, we attempted to establish an enzyme immunoassay (EIA) for quantifying AcSDKP‐like immunoreactive substance (IS), which is applicable for monitoring plasma AcSDKP levels in healthy subjects and patients with chronic renal failure. Using β‐ d ‐galactosidase‐labeled Gly‐γAbu‐SDKP as a marker antigen, an anti‐rabbit IgG‐coated immunoplate as a bound/free separator and 4‐methylumbelliferyl‐β‐ d ‐galactopyranoside as a fluorogenic substrate, a highly sensitive and specific EIA was developed for the quantification of AcSDKP‐IS in human plasma. The lower limit of quantification was 0.32 fmol/well, and the sharp inhibition competitive EIA calibration curve obtained was linear between 8.0 and 513 fmol/ml. This EIA was so sensitive that only 10 µl plasma sample was required for a single assay. The coefficients of variation (reproducibility) for human plasma concentrations of 0.2 and 2.1 pmol/ml were 7.2 and 7.7%, respectively, for inter‐assay and 13.3 and 7.8% for intra‐assay comparisons. Plasma AcSDKP‐IS level was significantly higher in patients with chronic renal failure (0.92 ± 0.39 pmol/ml) compared with healthy subjects (0.29 ± 0.07 pmol/ml). These results suggest that our EIA may be useful to evaluate plasma AcSDKP level as a biomarker in various patients. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

N‐acetyl‐L‐cysteine inhibits bleomycin induced apoptosis in malignant testicular germ cell tumors

Antioxidants may prevent apoptosis of cancer cells via inhibiting reactive oxygen species (ROS). However, to date no study has been carried out to elucidate the effects of strong antioxidant N‐acetylcysteine (NAC) on Bleomycin induced apoptosis in human testicular cancer (NTERA‐2, NT2) cells. For this reason, we studied the effects of Bleomycin and NAC alone and in combination on apoptotic signaling pathways in NT2 cell line. We determined the cytotoxic effect of bleomycin on NT2 cells and measured apoptosis markers such as Caspase‐3, ‐8, ‐9 activities and Bcl‐2, Bax, Cyt‐c, Annexin V‐FTIC and PI levels in NT2 cells incubated with different agents for 24 h. Early apoptosis was determined using FACS assay. We found half of the lethal dose (LD₅₀) of Bleomycin on NT2 cell viability as 400, 100, and 20 µg/ml after incubations for 24, 48, and 72 h, respectively. Incubation with bleomycin (LD₅₀) and H₂O₂ for 24 h increased Caspase‐3, ‐8, ‐9 activities, Cyt‐c and Bax levels and decreased Bcl‐2 levels. The concurrent incubation of NT2 cells with bleomycin/H₂O₂ and NAC (5 mM) for 24 h abolished bleomycin/H₂O₂‐dependent increases in Caspase‐3, ‐8, ‐9 activities, Bax and Cyt‐c levels and bleomycin/H₂O₂‐dependent decrease in Bcl‐2 level. Our results indicate that bleomycin/H₂O₂ induce apoptosis in NT2 cells by activating mitochondrial pathway of apoptosis, while NAC diminishes bleomycin/H₂O₂ induced apoptosis. We conclude that NAC has antagonistic effects on Bleomycin‐induced apoptosis in NT2 cells and causes resistance to apoptosis which is not a desired effect in eliminating cancer cells. J. Cell. Biochem. 114: 1685–1694, 2013. © 2013 Wiley Periodicals, Inc.     

Facile preparation of the N‐acetyl‐glucosaminylated asparagine derivative with TFA‐sensitive protecting groups useful for solid‐phase glycopeptide synthesis

In this study, a novel N‐acetyl‐glucosaminylated asparagine derivative was developed. This derivative carried TFA‐sensitive protecting groups and was derived from commercially available compounds only in three steps. It was applicable to the ordinary 9‐fluorenylmethoxycarbonyl (Fmoc)‐based solid‐phase peptide synthesis (SPPS) method, and the protecting groups on the carbohydrate moiety could be removed by a single step of TFA cocktail treatment generally used for the final deprotection step in Fmoc‐SPPS. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.     

Trace analysis of N‐acetyl‐L‐cysteine using luminol–H2O2 chemiluminescence system catalyzed by silver nanoparticles

N‐Acetyl‐L‐cysteine (NAC) can inhibit the luminol–H₂O₂, reaction, which is catalyzed by silver nanoparticles. Based on this phenomenon a new method was developed for NAC determination. Under optimum conditions, a linear relationship between chemiluminescence intensity and NAC concentration was found in the range 0.034–0.98 µg/mL. The detection limit was 0.010 µg/mL (S/N =3), and the relative standard deviation (RSD) was <5% for 0.480 µg/mL NAC (n =5). This simple, sensitive and inexpensive method has been applied to measure the concentration of NAC in pharmaceutical tablets. Copyright © 2014 John Wiley & Sons, Ltd.     

Complete structure determination of N‐acetyl‐D‐galactosamine‐binding mistletoe lectin‐3 from Viscum album L. album

The primary structure of the B chain of the N‐acetyl‐D ‐galactosamine‐recognizing mistletoe lectin‐3 (ML‐3B) has been deduced from proteolytic digest peptides of the purified glycoprotein, their HPLC‐separation and Edman degradation and confirmation of the peptide sequences by MALDI‐MS. ML‐3B consists of 262 amino acid residues including 10 cysteine moieties. The structure and linkage of the carbohydrate side chains, connected to two N‐glycosylation sites at positions Asn⁹⁵ and Asn¹³⁵ of the lectin, were determined by a combination of glycosidase treatment and MALDI‐MS of corresponding glycopeptide fragments. The sequence alignment reveals a high homology with other B chains of type‐II RIPs, although there are remarkable differences in the D ‐galactose‐specific mistletoe lectin‐1B chain. The recently published primary structure of the mistletoe lectin‐3A chain 1 and the now available primary sequence of the 3B chain allowed the construction of a preliminary homology model of ML‐3. The model demonstrates, unequivocally, that ML‐3 is a member of the type‐II RIP family with rigid conservation of the enzymatic active site of the A chain and an identical overall protein fold. Specific amino acid residue exchanges and the different glycosylation pattern in comparison with ML‐1 are discussed and related to the properties of the two glycoproteins. The knowledge of the complete primary structure of mistletoe lectin‐3 is a major contribution towards more insight into the mechanism of the biological activity of commercial mistletoe preparations. Copyright © 2004 European Peptide Society and John Wiley & Sons, Ltd.     

Spectroscopic investigations on the conformational changes of lysozyme effected by different sizes of N‐acetyl‐l‐cysteine‐capped CdTe quantum dots

The effect of N‐acetyl‐l ‐cysteine‐capped CdTe quantum dots (NAC‐CdTe QDs) with different sizes on lysozyme was investigated by isothermal titration calorimetry (ITC), enzyme activity assays, and multi‐spectroscopic methods. ITC results proved that NAC‐CdTe QDs can spontaneously bind with lysozyme and hydrophobic force plays a major role in stabilizing QDs–lysozyme complex. Multi‐spectroscopic measurements revealed that NAC‐CdTe QDs caused strong quenching of the lysozyme's fluorescence in a size‐dependent quenching manner. Moreover, the changes of secondary structure and microenvironment in lysozyme caused by the NAC‐CdTe QDs were higher with a bigger size. The results of enzyme activity assays showed that the interaction between lysozyme and NAC‐CdTe QDs inhibited the activity of lysozyme and the inhibiting effect was in a size‐dependent manner. Based on these results, we conclude that NAC‐CdTe QDs with larger particle size had a larger impact on the structure and function of lysozyme.     

A cell‐survival factor (N‐acetyl‐L‐cysteine) alters the in vivo fate of constitutively proliferating subependymal cells in the adult forebrain

The adult mouse brain contains a population of constitutively proliferating subependymal cells that surround the lateral ventricle and are the direct progeny of the neural stem cell. Constitutively proliferating cells divide rapidly; 6 days after labeling, 60% of their progeny undergo cell death, 25% migrate to the olfactory bulbs, and 15% continue to proliferate within the subependyma. We have intraventricularly infused a cell survival factor N‐acetyl‐L ‐cysteine (NAC), which is known to have survival effects without concomitant proliferative effects on cells in vitro, and examined the resulting fate of cells spared from the normally occurring cell death. NAC infusion for 5 days results in a five‐fold increase in the number of retrovirally labeled subependymal cells compared to saline‐infused controls. The increase in the number of subependymal cells is directly proportional to the amount of time during which NAC is present and is not due to increased proliferation. While NAC is able to keep all the normally dying progeny alive, the cells spared from death remain confined to the subependyma lining the lateral ventricles and do not migrate to the olfactory bulbs (one normal fate of constitutively proliferating progeny) or into the surrounding brain parenchyma. When animals survive for an additional 6 days following NAC infusion, the number of retrovirally labeled subependymal cells returns to control values, indicating that the continued presence of NAC is necessary for cell survival. These data suggest that preventing cell death is not sufficient to keep all of the progeny of these cells in a proliferative mode. © 2000 John Wiley & Sons, Inc. J Neurobiol 42: 338–346, 2000     

Protective mechanisms of N‐acetyl‐cysteine against pyrrolizidine alkaloid clivorine‐induced hepatotoxicity

Pyrrolizidine alkaloid (PA) clivorine, isolated from traditional Chinese medicinal plant Ligularia hodgsonii Hook, has been shown to induce apoptosis in hepatocytes via mitochondrial‐mediated apoptotic pathway in our previous research. The present study was designed to observe the protection of N‐acetyl‐cysteine (NAC) on clivorine‐induced hepatocytes apoptosis. Our results showed that 5 mM NAC significantly reversed clivorine‐induced cytotoxicity via MTT and Trypan Blue staining assay. DNA apoptotic fragmentation analysis and Western‐blot results showed that NAC decreased clivorine‐induced apoptotic DNA ladder and caspase‐3 activation. Further results showed that NAC inhibited clivorine‐induced Bcl‐xL decrease, mitochondrial cytochrome c release and caspase‐9 activation. Intracellular glutathione (GSH) is an important ubiquitous redox‐active reducing sulfhydryl (? SH) tripeptide, and our results showed that clivorine (50 µM) decreased cellular GSH amounts and the ratio of GSH/GSSG in the time‐dependent manner, while 5 mM NAC obviously reversed this depletion. Further results showed that GSH synthesis inhibitor BSO augmented clivorine‐induced cytotoxicity, while exogenous GSH reversed its cytotoxicity on hepatocytes. Clivorine (50 µM) significantly induced cellular reactive oxygen species (ROS) generation. Further results showed that 50 µM Clivorine decreased glutathione peroxidase (GPx) activity and increased glutathione S transferase (GST) activity, which are both GSH‐related antioxidant enzymes. Thioredoxin‐1 (Trx) is also a ubiquitous redox‐active reducing (? SH) protein, and clivorine (50 µM) decreased cellular expression of Trx in a time‐dependent manner, while 5 mM NAC reversed this decrease. Taken together, our results demonstrate that the protection of NAC is major via maintaining cellular reduced environment and thus prevents clivorine‐induced mitochondrial‐mediated hepatocytes apoptosis. J. Cell. Biochem. 108: 424–432, 2009. © 2009 Wiley‐Liss, Inc.     

Kinetic resolution of N‐acetyl‐DL‐alanine methyl ester using immobilized Escherichia coli cells bearing recombinant esterase from Bacillus cereus

D‐alanine is widely used in medicine, food, additives, cosmetics, and other consumer items. Esterase derived from Bacillus cereus WZZ001 exhibits high hydrolytic activity and stereoselectivity. In this study, we expressed the esterase gene in Escherichia coli BL21 (DE3). We analyzed the biocatalytic resolution of N‐acetyl‐DL‐alanine methyl ester by immobilized whole E. coli BL21 (DE3) cells, which were prepared through embedding and cross‐linking. We analyzed biocatalytic resolution under the optimal conditions of pH of 7.0, temperature of 40°C and substrate concentration of at 700 mM with an enantiomeric excess of 99.99% and e.e._p of 99.50%. The immobilized recombinant B. cereus esterase E. coli BL21 (DE3) cells exhibited excellent reusability and retained 86.04% of their initial activity after 15 cycles of repeated reactions. The immobilized cells are efficient and stable biocatalysts for the preparation of N‐acetyl‐D‐alanine methyl esters.     

The effects of organic solvents on the efficiency and regioselectivity of N‐acetyl‐lactosamine synthesis,using the β‐galactosidase from Bacillus circulans in hydro‐organic media

The enzymatic synthesis of N‐acetyl‐lactosamine (LacNAc) by the transgalactosylation of N‐acetyl‐D ‐glucosamine (GlcNAc), catalyzed by the β‐galactosidase from Bacillus circulans (BcβGal), was studied in hydro‐organic media, starting from o‐nitrophenyl‐β‐D ‐galactopyranoside (oNPG) as a galactosyl donor. Thermal stability and synthesis activity of BcβGal were shown to depend on the organic solvent polarity, characterized by its Log P value. BcβGal was thus most stable in 10% (v/v) t‐BuOH, an organic solvent found to have a stabilizing and/or weakly denaturing property, which was confirmed for high t‐BuOH concentrations. In the same manner, the optimal synthesis yield increased as the Log P value of the organic solvent increased. The best results were obtained for reactions carried out in 10% (v/v) pyridine or 2‐methyl‐2‐butanol, which gave 47% GlcNAc transgalactosylation yield based on starting oNPG, of which 23% (11 mM; 4.3 g/L) consisted in LacNAc synthesis. Furthermore, it was also established that both the GlcNAc transgalactosylation yield and the enzyme regioselectivity depended on the percentage of organic solvent used, the optimal percentage varying from 10 to 40% (v/v), depending on the solvent. This phenomenon was found to correlate mainly with the thermodynamic activity of water (a_w) in the aqueous organic solvent mixture, which was found to be optimal when close to 0.96, whatever the organic solvent used. Finally, this study highlighted the fact that the regioselectivity of BcβGal for 1‐4 linkage formation could be advantageously managed by controlling the a_w parameter. © 2010 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Neonatal neurodegeneration after N‐acetyl‐aspartylglutamate (NAAG) administration in rat hippocampus

NAAG, an agonist at Group II metabotropic glutamate receptors and at the N‐methyl‐d ‐aspartate (NMDA)‐type of ionotropic glutamate receptor, was infused at 250 nmoles in 0.25 μL of saline into each cerebral ventricle of 12‐day‐old rat pups. Proportion of pycnotic neurons was determined in 100 × 200 μm areas of medial and lateral blades of DG, and in areas CA1, CA3a, b of both dorsal and ventral hippocampus. In some sections we used Fluoro‐JADE‐B staining to visualize degenerating neuronal cell bodies. There was a marked neurodegeneration, particularly in the medial blade of DG, at 24 h after the administration of NAAG but it was lower at the 4‐day time point. No significant damage was observed in 50‐day‐old rat. The results indicate that early postnatal administration of NAAG can cause serious loss of neurons in rat hippocampus. Acknowledgement: Supported by LNOOB122 MEYS CR.     

Up‐regulation of β‐amyloidogenesis in neuron‐like human cells by both 24‐ and 27‐hydroxycholesterol: protective effect of N‐acetyl‐cysteine

An abnormal accumulation of cholesterol oxidation products in the brain of patients with Alzheimer's disease (AD) would further link an impaired cholesterol metabolism in the pathogenesis of the disease. The first evidence stemming from the content of oxysterols in autopsy samples from AD and normal brains points to an increase in both 27‐hydroxycholesterol (27‐OH) and 24‐hydroxycholesterol (24‐OH) in the frontal cortex of AD brains, with a trend that appears related to the disease severity. The challenge of differentiated SK‐N‐BE human neuroblastoma cells with patho‐physiologically relevant amounts of 27‐OH and 24‐OH showed that both oxysterols induce a net synthesis of Aβ_1‐42 by up‐regulating expression levels of amyloid precursor protein and β‐secretase, as well as the β‐secretase activity. Interestingly, cell pretreatment with N‐acetyl‐cysteine (NAC) fully prevented the enhancement of β‐amyloidogenesis induced by the two oxysterols. The reported findings link an impaired cholesterol oxidative metabolism to an excessive β‐amyloidogenesis and point to NAC as an efficient inhibitor of oxysterols‐induced Aβ toxic peptide accumulation in the brain.     

Chiral Recognition of N‐Phthaloyl,N‐Tetrachlorophthaloyl,and N‐Naphthaloyl α‐Amino Acids and Their Esters on Polysaccharide‐Derived Chiral Stationary Phases

Enantiomeric separations of N‐phthaloyl (N‐PHT), N‐tetrachlorophthaloyl (N‐TCPHT), and N‐naphthaloyl (N‐NPHT) α‐amino acids and their esters were examined on several kinds of polysaccharide‐derived chiral stationary phases (CSPs). Resolution capability of CSPs was greater Chiralcel OF than the others for N‐PHT and N‐NPHT α‐amino acids and their esters. In N‐TCPHT α‐amino acids and their esters, good enantioselectivities showed Chiralcel OG for N‐TCPHT α‐amino acids, Chiralpak AD for N‐TCPHT α‐amino acid methyl esters, and Chiralcel OD for N‐TCPHT α‐amino acid ethyl esters, respectively. From the results of liquid chromatography and computational chemistry, it is concluded that l ‐form is preferred and more retained with electrostatic interaction in case of interaction between N‐PHT α‐amino acid derivatives and Chiralcel OF, N‐TCPHT α‐amino acid derivatives and Chiralcel OD, and N‐NPHT α‐amino acid derivatives and Chiracel OF. On the other hand, d ‐form is preferred and more retained with van der Waals interaction in case of interaction between N‐TCPHT α‐amino acid ester derivatives and Chiralcel OG and Chiralpak AD. Chirality 24:1037–1046, 2012. © 2012 Wiley Periodicals, Inc.     

Excited‐state lifetime studies of the three tryptophan residues in the N‐lobe of human serum transferrin

The energy transfer from the three Trp residues at positions 8, 128, and 264 within the human serum transferrin (hTF) N-lobe to the ligand to metal charge transfer band has been investigated by monitoring changes in Trp fluorescence emission and lifetimes. The fluorescence emission from hTF N-lobe is dominated by Trp264, as revealed by an 82% decrease in the quantum yield when this Trp residue is absent. Fluorescence lifetimes were determined by multifrequency phase fluorometry of mutants containing one or two Trp residues. Decays of these samples are best described by two or three discrete lifetimes or by a unimodal Lorentzian distribution. The discrete lifetimes and the center of the lifetime distribution for samples containing Trp128 and Trp264 are affected by iron. The distribution width narrows on iron removal and is consistent with a decrease in dynamic mobility of the dominant fluorophore, Trp264. Both the quantum yield and the lifetimes are lower when iron is present, however, not proportionally. The greater effect of iron on quantum yields is indicative of nonexcited state quenching, i.e., static quenching. The results of these experiments provide quantitative data strongly suggesting that Förster resonance energy transfer is not the sole source of Trp quenching in the N-lobe of hTF.     

In Streptomyces lividans,acetyl‐CoA synthetase activity is controlled by O‐serine and Nɛ‐lysine acetylation

Protein acetylation is a rapid mechanism for control of protein function. Acetyl‐CoA synthetase (AMP‐forming, Acs) is the paradigm for the control of metabolic enzymes by lysine acetylation. In many bacteria, type I or II protein acetyltransferases acetylate Acs, however, in actinomycetes type III protein acetyltransferases control the activity of Acs. We measured changes in the activity of the Streptomyces lividans Acs (SlAcs) enzyme upon acetylation by PatB using in vitro and in vivo analyses. In addition to the acetylation of residue K610, residue S608 within the acetylation motif of SlAcs was also acetylated (PKTRSGK⁶¹⁰). S608 acetylation rendered SlAcs inactive and non‐acetylatable by PatB. It is unclear whether acetylation of S608 is enzymatic, but it was clear that this modification occurred in vivo in Streptomyces. In S. lividans, an NAD⁺‐dependent sirtuin deacetylase from Streptomyces, SrtA (a homologue of the human SIRT4 protein) was needed to maintain SlAcs function in vivo. We have characterized a sirtuin‐dependent reversible lysine acetylation system in Streptomyces lividans that targets and controls the Acs enzyme of this bacterium. These studies raise questions about acetyltransferase specificity, and describe the first Acs enzyme in any organism whose activity is modulated by O‐Ser and N^?‐Lys acetylation.     

HS‐SPME‐GC‐FID method for detection and quantification of Bacillus cereus ATCC 10702 mediated 2‐acetyl‐1‐pyrroline

A rapid micro‐scale solid‐phase micro‐extraction (SPME) procedure coupled with gas‐chromatography with flame ionized detector (GC‐FID) was used to extract parts per billion levels of a principle basmati aroma compound “2‐acetyl‐1‐pyrroline” (2‐AP) from bacterial samples. In present investigation, optimization parameters of bacterial incubation period, sample weight, pre‐incubation time, adsorption time, and temperature, precursors and their concentrations has been studied. In the optimized conditions, detection of 2‐AP produced by Bacillus cereus ATCC10702 using only 0.5 g of sample volume was 85 μg/kg. Along with 2‐AP, 15 other compounds produced by B. cereus were also reported out of which 14 were reported for the first time consisting mainly of (E)?2‐hexenal, pentadecanal, 4‐hydroxy‐2‐butanone, n‐hexanal, 2–6‐nonadienal, 3‐methoxy‐2(5H) furanone and 2‐acetyl‐1‐pyridine and octanal. High recovery of 2‐AP (87 %) from very less amount of B. cereus samples was observed. The method is reproducible fast and can be used for detection of 2‐AP production by B. cereus. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:1356–1363, 2014     

The N‐glycan on Asn54 affects the atypical N‐glycan composition of plant‐produced interleukin‐22, but does not influence its activity

Human interleukin‐22 (IL‐22) is a member of the IL‐10 cytokine family that has recently been shown to have major therapeutic potential. IL‐22 is an unusual cytokine as it does not act directly on immune cells. Instead, IL‐22 controls the differentiation, proliferation and antimicrobial protein expression of epithelial cells, thereby maintaining epithelial barrier function. In this study, we transiently expressed human IL‐22 in Nicotiana benthamiana plants and investigated the role of N‐glycosylation on protein folding and biological activity. Expression levels of IL‐22 were up to 5.4 μg/mg TSP, and N‐glycan analysis revealed the presence of the atypical Lewis A structure. Surprisingly, upon engineering of human‐like N‐glycans on IL‐22 by co‐expressing mouse FUT8 in ΔXT/FT plants a strong reduction in Lewis A was observed. Also, core α1,6‐fucoylation did not improve the biological activity of IL‐22. The combination of site‐directed mutagenesis of Asn54 and in vivo deglycosylation with PNGase F also revealed that N‐glycosylation at this position is not required for proper protein folding. However, we do show that the presence of a N‐glycan on Asn54 contributes to the atypical N‐glycan composition of plant‐produced IL‐22 and influences the N‐glycan composition of N‐glycans on other positions. Altogether, our data demonstrate that plants offer an excellent tool to investigate the role of N‐glycosylation on folding and activity of recombinant glycoproteins, such as IL‐22.     

Characterizing the release of bioactive N‐glycans from dairy products by a novel endo‐β‐N‐acetylglucosaminidase

Endo‐β‐N‐acetylglucosaminidase isolated from B. infantis ATCC 15697 (EndoBI‐1) is a novel enzyme that cleaves N‐N′‐diacetyl chitobiose moieties found in the N‐glycan core of high mannose, hybrid, and complex N‐glycans. These conjugated N‐glycans are recently shown as a new prebiotic source that stimulates the growth of a key infant gut microbe, Bifidobacterium longum subsp. Infantis. The effects of pH (4.45–8.45), temperature (27.5–77.5°C), reaction time (15–475 min), and enzyme/protein ratio (1:3,000–1:333) were evaluated on the release of N‐glycans from bovine colostrum whey by EndoBI‐1. A central composite design was used, including a two‐level factorial design (2⁴) with four center points and eight axial points. In general, low pH values, longer reaction times, higher enzyme/protein ratio, and temperatures around 52°C resulted in the highest yield. The results demonstrated that bovine colostrum whey, considered to be a by/waste product, can be used as a glycan source with a yield of 20 mg N‐glycan/g total protein under optimal conditions for the ranges investigated. Importantly, these processing conditions are suitable to be incorporated into routine dairy processing activities, opening the door for an entirely new class of products (released bioactive glycans and glycan‐free milk). The new enzyme's activity was also compared with a commercially available enzyme, showing that EndoBI‐1 is more active on native proteins than PNGase F and can be efficiently used during pasteurization, streamlining its integration into existing processing strategies. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:1331–1339, 2015     

N‐methyl‐N‐nitrosourea induces retinal degeneration in the rat via the inhibition of NF‐κB activation

Retinitis pigmentosa (RP) is a group of inherited neurodegenerative diseases characterized by the loss of photoreceptor cells through apoptosis. N‐methyl‐N‐nitrosourea (MNU) is an alkylating toxicant that induces photoreceptor cell death resembling hereditary RP. This study aimed to investigate the role of nuclear factor κB (NF‐κB) in MNU‐induced photoreceptor degeneration. Adult rats received a single intraperitoneal injection of MNU (60 mg/kg bodyweight). Hematoxylin and eosin staining demonstrated progressive outer nuclear layer (ONL) loss after MNU treatment. Transmission electron microscopy revealed nuclear pyknosis, chromatin margination in the photoreceptors, increased secondary lysosomes, and lobulated retinal‐pigmented epithelial cells in MNU‐treated rats. Numerous photoreceptor cells in the ONL showed positive TUNEL staining and apoptosis rate peaked at 24 hours. Enhanced depth imaging spectral‐domain optical coherence tomography showed ONL thinning and decreased choroid thickness. Electroretinograms showed decreased A wave amplitude that predominated in scotopic conditions. Western blot analysis showed that nuclear IκBα level increased, whereas nuclear NF‐κB p65 decreased significantly in the retinas of MNU‐treated rats. These findings indicate that MNU leads to selective photoreceptor degradation, and this is associated with the inhibition of NF‐κB activation.