Immunoglobulin gamma (IgG) monoclonal antibodies (mAbs) are glycoproteins that have emerged as powerful and promising protein therapeutics. During the process of production, storage and transportation, exposure to ambient light is inevitable, which can cause protein physical and chemical degradation. For mechanistic studies of photodegradation, we have exposed IgG4-Fc to UV light. The photoirradiation of IgG4-Fc with monochromatic UVC light at λ = 254 nm and UVB light with λmax = 305 nm in air-saturated solutions revealed multiple photoproducts originating from tyrosine side chain fragmentation at Tyr300, Tyr373, and Tyr436. Tyr side chain fragmentation yielded either Gly or various backbone cleavage products, including glyoxal amide derivatives. A mechanism is proposed involving intermediate Tyr radical cation formation, either through direct light absorption of Tyr or through electron transfer to an initial Trp radical cation, followed by elimination of quinone methide. Product formation showed either no (cleavage of Tyr373) or significant (cleavage of Tyr436) inverse product solvent isotope effects (SIEs), indicating a role for proton transfer in the cleavage mechanism of Tyr436. The role of electron transfer in the cleavage of Tyr436 was further investigated through mutation of an adjacent Trp381. This is the first observation of a photoinduced Tyr side chain cleavage reactions in a protein.
The formation of biofilms by Yersinia pseudotuberculosis (Yptb) and Y. pestis requires the hmsHFRS genes, which direct production of a polysaccharide extracellular matrix (Hms-ECM). Despite possessing identical hmsHFRS sequences, Yptb produces much less Hms-ECM than Y. pestis. The regulatory influences that control Yptb Hms-ECM production and biofilm formation are not fully understood. In this study, negative regulators of biofilm production in Yptb were identified. Inactivation of the BarA/UvrY two-component system or the CsrB regulatory RNA increased binding of Congo Red dye, which correlates with extracellular polysaccharide production. These mutants also produced biofilms that were substantially more cohesive than the wild type strain. Disruption of uvrY was not sufficient for Yptb to cause proventricular blockage during infection of Xenopsylla cheopis fleas. However, this strain was less acutely toxic toward fleas than wild type Yptb. Flow cytometry measurements of lectin binding indicated that Yptb BarA/UvrY/CsrB mutants may produce higher levels of other carbohydrates in addition to poly-GlcNAc Hms-ECM. In an effort to characterize the relevant downstream targets of the BarA/UvrY system, we conducted a proteomic analysis to identify proteins with lower abundance in the csrB::Tn5 mutant strain. Urease subunit proteins were less abundant and urease enzymatic activity was lower, which likely reduced toxicity toward fleas. Loss of CsrB impacted expression of several potential regulatory proteins that may influence biofilms, including the RcsB regulator. Overexpression of CsrB did not alter the Congo-red binding phenotype of an rcsB::Tn5 mutant, suggesting that the effect of CsrB on biofilms may require RcsB. These results underscore the regulatory and compositional differences between Yptb and Y. pestis biofilms. By activating CsrB expression, the Yptb BarA/UvrY two-component system has pleiotropic effects that impact biofilm production and stability.
It is well known that PI3K regulates various processes in mammalian cells by generating a secondary messenger that later activates AKT. However, its innate immune function in crustaceans remains unclear. We report the characterization of Litopenaeus vannamei PI3K (LvPI3K) for investigating how PI3K participates in the innate immunity of crustaceans. Full-length LvPI3K cDNA was 3357 bp long, with a 3222 bp open reading frame (ORF) that encodes a putative protein of 1292 amino acids. The PI3K catalytic domain (PI3Kc) of LvPI3K was found to be rather conserved when the PI3Ks from other species were analyzed. The LvPI3K protein was shown to be localized to the cytoplasm of Drosophila S2 cells, while LvPI3K mRNA was ubiquitously expressed in healthy L. vannamei, with the highest expression found in hemolymph. A dual luciferase reporter gene assay demonstrated that LvPI3K overexpression activated the promoter of antibacterial peptide LvPEN4 in a dose-dependent manner. However, the addition of PDTC, a specific inhibitor of NF-κB, suppressed the LvPI3K-induced LvPEN4 promoter activation. Moreover, Vibrio alginolyticus challenge induced a rapid up-regulation of LvPI3K expression. Further experiments showed that LvPI3K silencing in shrimp challenged with V. alginolyticus significantly increased Vibrio number, ROS production and DNA damage in the hemolymph, as well as significantly decreased total hemocyte count. The mRNA levels of certain molecules related to LvPI3K signaling, such as LvAKT and LvPEN4, also decreased following LvPI3K silencing. Taken together, these results suggest that LvPI3K regulates the downstream signal component LvPEN4 and functions in V. alginolyticus resistance.
A series of well-defined N-glycosylated IgG4-Fc variants were utilized to investigate the effect of glycan structure on their physicochemical properties (conformational stability and photostability) and interactions with an Fc g receptor IIIA (FcgRIIIA). High mannose (HM, GlcNAc 2 Man (8þn) [n ¼ 0-4]), Man 5 (GlcNAc 2 Man 5), GlcNAc 1 , and N297Q IgG4-Fc were prepared in good quality. The physical stability of these IgG4-Fc variants was examined with differential scanning calorimetry and intrinsic fluorescence spectroscopy. Photostability was assessed after photoirradiation between 295 and 340 nm (l max ¼ 305 nm), and HPLC-MS/MS analysis of specific products was performed. The size of glycans at Asn 297 affects the yields of light-induced Tyr side-chain fragmentation products, where the yields decreased in the following order: N297Q > GlcNAc 1 > Man 5 > HM. These yields correlate with the thermal stability of the glycoforms. The HM and Man 5 glycoforms display increased affinity for FcgRIIIA by at least 14.7-fold compared with GlcNAc 1 IgG4-Fc. The affinities measured for the HM and Man 5 IgG4-Fc (0.39-0.52 mM) are similar to those measured for fucosylated IgG1. Dependent on the mechanisms of action of IgG4 therapeutics, such glycoforms may need to be carefully monitored. The nonglycosylated N297Q IgG4-Fc did not present measurable affinity to FcgRIIIA.
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