scholarly journals Recombinant glycoproteins resembling carbohydrate-specific IgE epitopes from plants, venoms and mites

EBioMedicine ◽  
2019 ◽  
Vol 39 ◽  
pp. 33-43 ◽  
Author(s):  
Pia Gattinger ◽  
Irene Mittermann ◽  
Christian Lupinek ◽  
Gerhard Hofer ◽  
Walter Keller ◽  
...  
Keyword(s):  
Specific Ige ◽  
Recombinant Glycoproteins

scholarly journals Recombinant Glycoproteins Resembling Carbohydrate-Specific IgE Epitopes from Plants, Venoms and Mites

2018 ◽  
Author(s):  
Rudolf Valenta ◽  
Pia Gattinger ◽  
Irene Mittermann ◽  
Christian Lupinek ◽  
Gerhard Hofer ◽  
...  
Keyword(s):  
Specific Ige ◽  
Recombinant Glycoproteins

Metabolic engineering of CHO cells to prepare glycoproteins

2018 ◽  
Vol 2 (3) ◽  
pp. 433-442 ◽  
Author(s):  
Qiong Wang ◽  
Michael J. Betenbaugh
Keyword(s):  
Metabolic Engineering ◽  
Cho Cells ◽  
Genetic Manipulation ◽  
Chinese Hamster ◽  
Post Translational Modification ◽  
Effector Functions ◽  
Recombinant Glycoproteins ◽  
Production Platform ◽  
Chemical Inhibitors ◽  
Amino Acid Mutations

As a complex and common post-translational modification, N-linked glycosylation affects a recombinant glycoprotein's biological activity and efficacy. For example, the α1,6-fucosylation significantly affects antibody-dependent cellular cytotoxicity and α2,6-sialylation is critical for antibody anti-inflammatory activity. Terminal sialylation is important for a glycoprotein's circulatory half-life. Chinese hamster ovary (CHO) cells are currently the predominant recombinant protein production platform, and, in this review, the characteristics of CHO glycosylation are summarized. Moreover, recent and current metabolic engineering strategies for tailoring glycoprotein fucosylation and sialylation in CHO cells, intensely investigated in the past decades, are described. One approach for reducing α1,6-fucosylation is through inhibiting fucosyltransferase (FUT8) expression by knockdown and knockout methods. Another approach to modulate fucosylation is through inhibition of multiple genes in the fucosylation biosynthesis pathway or through chemical inhibitors. To modulate antibody sialylation of the fragment crystallizable region, expressions of sialyltransferase and galactotransferase individually or together with amino acid mutations can affect antibody glycoforms and further influence antibody effector functions. The inhibition of sialidase expression and chemical supplementations are also effective and complementary approaches to improve the sialylation levels on recombinant glycoproteins. The engineering of CHO cells or protein sequence to control glycoforms to produce more homogenous glycans is an emerging topic. For modulating the glycosylation metabolic pathways, the interplay of multiple glyco-gene knockouts and knockins and the combination of multiple approaches, including genetic manipulation, protein engineering and chemical supplementation, are detailed in order to achieve specific glycan profiles on recombinant glycoproteins for superior biological function and effectiveness.

Comparison between two automated systems to determine specific IgE: CAP and ELItest

1996 ◽  
Vol 26 (12) ◽  
pp. 1420-1427 ◽  
Author(s):  
T. BRUNNEE ◽  
A. SEEBERGER ◽  
J. KLEINE-TEBBE ◽  
G. KUNKEL
Keyword(s):  
Specific Ige ◽  
Automated Systems

CORRELATION OF SERUM SPECIFIC IGE AND SKIN PRICK TESTS IN CHILDREN WITH RESPIRATORY ALLERGY

2011 ◽  
Author(s):  
Esen Demir ◽  
Levent Midyat ◽  
Figen Gulen ◽  
Gulhadiye Akbas ◽  
Sema Tanrıverdi ◽  
...  
Keyword(s):  
Specific Ige ◽  
Respiratory Allergy ◽  
Skin Prick Tests

Component resolved diagnostics in peanut sensitized children with and without a history of clinical reaction

2020 ◽  
Vol 41 (5) ◽  
pp. 336-340
Author(s):  
Yasmin Hamzavi Abedi ◽  
Cristina P. Sison ◽  
Punita Ponda
Keyword(s):  
Retrospective Chart Review ◽  
Clinical History ◽  
Specific Ige ◽  
Exact Test ◽  
Ara H 1 ◽  
Sige Level ◽  
History Of ◽  
Laboratory Procedures ◽  
Ige Mediated ◽  
The Relationship

Background: Serum Peanut-specific-IgE (PN-sIgE) and peanut-component-resolved-diagnostics (CRD) are often ordered simultaneously in the evaluation for peanut allergy. Results often guide the plans for peanut oral challenge. However, the clinical utility of CRD at different total PN-sIgE levels is unclear. A commonly used predefined CRD Ara h2 cutoff value in the literature predicting probability of peanut challenge outcomes is 0.35kUA/L. Objective: To examine the utility of CRD in patients with and without a history of clinical reactivity to peanut (PN). Methods: This was a retrospective chart review of 196 children with PN-sIgE and CRD testing, of which, 98 patients had a clinical history of an IgE-mediated reaction when exposed to PN and 98 did not. The Fisher's exact test was used to assess the relationship between CRD and PN-sIgE at different cutoff levels, McNemar test and Gwet’s approach (AC1 statistic) were used to examine agreement between CRD and PN-sIgE, and logistic regression was used to assess differences in the findings between patients with and without reaction history. Results: Ara h 1, 2, 3, or 9 (ARAH) levels ≤0.35 kUA/L were significantly associated with PN-sIgE levels <2 kUA/L rather than ≥2 kUA/L (p < 0.0001). When the ARAH threshold was increased to 1 kUA/L and 2 kUA/L, these thresholds were still significantly associated with PN-sIgE levels of <2, <5, and <14 kUA/L. These findings were not significantly different in patients with and without a history of clinical reactivity. Conclusion: ARAH values correlated with PN-sIgE. Regardless of clinical history, ARAH levels are unlikely to be below 0.35, 1, or 2 kUA/L if the PN-sIgE level is >2 kUA/L. Thus, if possible, practitioners should consider PN-sIgE rather than automatically ordering CRD with PN-sIgE every time. Laboratory procedures that allow automatically and reflexively adding CRD when the PN-sIgE level is ≤5 kUA/L can be helpful. However, further studies are needed in subjects with challenge-proven PN allergy.

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