Your search keyword '"Xu, Zhi-Qiang"' showing total 7 results

1. Identification of fructose-bisphosphate aldolase as new pollen allergens.

Author

Song LB, Zhang L, Zhu Y, Yang YS, Xu ZQ, Sun JL, and Wei JF

Subjects

Humans, Rhinitis, Allergic, Seasonal immunology, Immunoglobulin E immunology, Allergens immunology, Fructose-Bisphosphate Aldolase immunology, Fructose-Bisphosphate Aldolase metabolism, Pollen immunology

Published

2024

2. Molecular and immunological characterization of two polcalcins as novel allergens of Artemisia sieversiana pollen.

Author

Cheng, Ya-Li, Xu, Zhi-Qiang, Wang, Han, Zhu, Dan-Xuan, Zhu, Ying, Sun, Jin-Lyu, and Wei, Ji-Fu

Subjects

*POLLEN, *ALLERGENS, *ARTEMISIA

Published

2023

3. Molecular and immunochemical characterization of profilin as major allergen from Platanus acerifolia pollen.

Author

Yang, Yong-Shi, Xu, Zhi-Qiang, Zhu, Wei, Zhu, Dan-Xuan, Jiao, Yong-Xin, Zhang, Li-Shan, Hou, Yi-Bo, Wei, Ji-Fu, and Sun, Jin-Lyu

Subjects

*PROFILIN, *POLLEN, *SYCAMORES, *BLACK poplar, *AFFINITY chromatography, *ALLERGENS, *IMMUNOGLOBULIN E

Abstract

• Profilin was one of the major component allergens in P. acerifolia pollen. • The profilin had a significant cross-reactivity with Pop n 2. • Enriching the information on the allergenic components. • Help to develop diagnostic and therapeutic strategies for allergic patients. The Platanus acerifolia (P. acerifolia) pollen is one of the most common causes of allergic respiratory symptoms in China. However, the allergenic components in P. acerifolia are not fully studied yet. The study aimed to determine the molecular and immunochemical characterization of the profilin from P. acerifolia pollen. The coding sequence of profilin was amplified, cloned, and then expressed in Escherichia coli BL21 cells and purified by nickel affinity chromatography. Protein refolding was followed by structural characterization and homology 3D model building. The allergenicity and cross-reactivity were assessed by ELISA, immunoblotting, or basophil activation test (BAT) using the sera of P. acerifolia allergic patients. The cDNA sequence of profilin was cloned with a 396 bp open reading frame coding for 131 amino acids. The molecular weight of the profilin was approximately 14 kDa, and the predicted structure consisted of 3 α-helixes and 7 β-sheets. Physicochemical analysis indicated the profilin was a stable, relatively thermostable, and relatively conserved protein. The allergenicity determined by ELISA, western blot, and BAT suggested 76.9% (30/39) of the P. acerifolia pollen allergic patients displayed specific IgE recognition of the profilin. The profilin shared > 80% sequence identity with Pop n 2, the profilin from Populus nigra , and observed a significant cross-reactivity with Pop n 2 in IgE-inhibition assay. Profilin, as one of the major component allergens in P. acerifolia pollen, was identified and characterized at molecular and immunochemical levels in this study. These findings would contribute to developing diagnostic and therapeutic strategies for P. acerifolia pollen allergic patients. [ABSTRACT FROM AUTHOR]

Published

2022

4. Identification and characterization of natural PR-1 protein as major allergen from Humulus japonicus pollen.

Author

Wang, Ye, Tan, Ling-Xiao, Xu, Zhi-Qiang, Jiao, Yong-Xin, Zhu, Dan-Xuan, Yang, Yong-Shi, Wei, Ji-Fu, Sun, Jin-Lyu, and Tian, Man

Subjects

*ALLERGENS, *POLLEN, *HEAT stability in proteins, *ENZYME-linked immunosorbent assay, *IMMUNOGLOBULIN E, *SANDWICH construction (Materials)

Abstract

The Humulus japonicus pollen is one of the most common allergenic pollens in China. However, little is unveiled regarding the allergenic components in Humulus japonicus pollen. Our study aimed to purify and identify the pathogenesis-related 1 (PR-1) protein from Humulus japonicus pollen, and to characterize the molecular and immunochemical properties of this novel allergen. The natural PR-1 protein (named as Hum j PR-1) was purified from Humulus japonicus pollen extracts with a combined strategy of chromatography, and identified by mass spectrometry. The coding sequence of Hum j PR-1 was confirmed by cDNA cloning. The recombinant Hum j PR-1 was expressed and purified from Escherichia coli. The allergenicity was assessed by immunoblot, enzyme-linked immunosorbent assay (ELISA), inhibition ELISA, and basophil activation test using Humulus japonicus allergic patients' whole blood. The physicochemical properties and 3-dimensional structure of it were comprehensively characterized by in silico methods. The allergenicity analysis revealed that 76.6 % (23/30) of the Humulus japonicus pollen allergic patients displayed specific IgE recognition of the natural Hum j PR-1. The cDNA sequence of Hum j PR-1 had a 516-bp open reading frame encoding 171 amino acids. Physicochemical analysis indicated that Hum j PR-1 was a stable and relatively thermostable protein. Hum j PR-1 shared a similar 3-dimensional folding pattern with other homologous allergens, which was a unique αβα sandwich structure containing 4 α-helices and 6 antiparallel β-sheets, encompassing 4 conserved CAP domain. The natural PR-1 was firstly purified and characterized as a major allergenic allergen in Humulus japonicus pollen. These findings would contribute to developing diagnostic and therapeutic strategies for Humulus japonicus pollinosis. • The natural Hum j PR-1 was firstly purified and characterized as a major allergenic allergen in H. japonicus pollen. • Hum j PR-1 showed high sensitization rate of 76.6 % (23/30) in Humulus japonicus pollen-allergic patients. • Hum j PR-1 had a unique αβα sandwich structure with 4 conserved CAP domain. [ABSTRACT FROM AUTHOR]

Published

2023

5. Identification and Characterization of Pectate Lyase as a Novel Allergen in <italic>Artemisia sieversiana</italic> Pollen.

Author

Yang, De-Zheng, Tang, Jian, Cheng, Ya-Li, Yang, Yong-shi, Wei, Ji-Fu, Sun, Jin-Lyu, and Xu, Zhi-Qiang

Subjects

*IMMUNOGLOBULIN E, *POLLEN, *ALLERGENS, *ENZYME-linked immunosorbent assay, *ALLERGIC rhinitis, *RECOMBINANT proteins

Abstract

Introduction: Artemisia species are widely spread in north hemisphere. Artemisia sieversiana pollen is one of the common pollen allergens in the north of China. At present, seven allergens were identified and had been listed officially from A. sieversiana pollen, but the remaining allergens are still insufficiently studied, which need to be found. Methods: Pectate lyase was purified from the extracts of A. sieversiana pollen by anion exchange, size exclusion, and HPLC-hydrophobic interaction chromatography. The gene of A. sieversiana pectate lyase (Art si pectate lyase) was cloned and expressed in Escherichia coli. The enzyme activity and circular dichroism (CD) spectrum of natural and recombinant proteins were analyzed. The allergenicity of Art si pectate lyase was characterized by enzyme-linked immunosorbent assay (ELISA), Western blot, inhibition ELISA, and basophil activation test. The allergen’s physicochemical properties, three-dimensional structure, sequence profiles with homologous allergens and phylogenetic tree were analyzed by in silico methods. Results: Natural Art si pectate lyase (nArt si pectate lyase) was purified from A. sieversiana pollen extracts by three chromatographic strategies. The cDNA sequence of Art si pectate lyase had a 1191-bp open reading frame encoding 396 amino acids. Both natural and recombinant pectate lyase (rArt si pectate lyase) exhibited similar CD spectrum, and nArt si pectate lyase had higher enzymatic activity. Moreover, the specific immunoglobulin E (IgE) binding rate against nArt si pectate lyase and rArt si pectate lyase was determined as 40% (6/15) in patients’ serum with Artemisia species pollen allergy by ELISA. The nArt si pectate lyase and rArt si pectate lyase could inhibit 76.11% and 47.26% of IgE binding activities to the pollen extracts, respectively. Art si pectate lyase was also confirmed to activate patients’ basophils. Its structure contains a predominant motif of classic parallel helical core, consisting of three parallel β-sheets, and two highly conserved features (vWiDH, RxPxxR) which may contribute to pectate lyase activity. Moreover, Art si pectate lyase shared the highest sequence identity of 73.0% with Art v 6 among currently recognized pectate lyase allergen, both were clustered into the same branch in the phylogenetic tree. Conclusion: In this study, pectate lyase was identified and comprehensively characterized as a novel allergen in A. sieversiana pollen. The findings enriched the allergen information for this pollen and promoted the development of component-resolved diagnosis and molecular therapy of A. sieversiana pollen allergy. [ABSTRACT FROM AUTHOR]

Published

2024

6. Identification of Pla a 7 as a novel pollen allergen group in Platanus acerifolia pollen.

Author

Song, Le-Bin, Jiao, Yong-Xin, Xu, Zhi-Qiang, Zhu, Dan-Xuan, Yang, Yong-Shi, Wei, Ji-Fu, Sun, Jin-Lyu, and Lu, Yan

Subjects

*POLLEN, *ALLERGENS, *SYCAMORES, *TRIOSE-phosphate isomerase, *IMMUNOGLOBULIN E, *ESCHERICHIA coli, *ISOMERASES

Abstract

• We identified and characterized a novel pollen allergen candidate as triosephosphate isomerase, which was different from already known types of pollen allergens and was recognized as Pla a 7 by WHO/IUIS Allergen Nomenclature Sub-committee. • The natural Pla a 7 displayed 41.4% IgE reactivity with the patients' sera, the reactivity was correlated to the IgE concentration against Platanus acerifolia pollen extract. • This finding is essential to enrich information on allergen components and pave the way for molecular diagnosis or treatment strategies for Platanus acerifolia pollen allergy. Platanus acerifolia is recognized as a source of allergenic pollen worldwide. Currently, five Platanus acerifolia pollen allergens belonging to different protein families have been identified, in which profilin and enolase were characterized by our group recently. Besides, we also screened and identified a novel allergen candidate as triosephosphate isomerase, which was different from already known types of pollen allergens. However, the role of this novel allergen group in Platanus acerifolia pollen allergy was unclear. Therefore, we further investigated the allergenicity and clarify its clinical relevance in this study. The natural triosephosphate isomerase from Platanus acerifolia pollen was purified by three steps of chromatography and identified by mass spectrometry. The cDNA sequence of this protein was matched from in-house transcripts based on internal peptide sequences, which was further confirmed by PCR cloning. The recombinant triosephosphate isomerase was expressed and purified from E. coli. Allergenicity analysis of this protein was carried out by enzyme linked immunosorbent assay, immunoblot, and basophil activation test. A novel allergen group belonging to triosephosphate isomerase was firstly identified in Platanus acerifolia pollen and named as Pla a 7. The cDNA of Pla a 7 contained an open reading frame of 762 bp encoding 253 amino acids. The natural Pla a 7 displayed 41.4% IgE reactivity with the patients' sera by ELISA, in which the absorbance value showed correlation to the serum sIgE against Platanus acerifolia pollen extract. Inhibition of IgE-binding to pollen extracts reached 26%-94% in different Pla a 7-positive sera. The recombinant Pla a 7 exhibited weaker IgE-reactivity in ELISA than its natural form, but showed comparable activity in immunoblot. The allergenicity was further confirmed by basophil activation test. Triosephosphate isomerase (Pla a 7) was first recognized as pollen allergen in Platanus acerifolia pollen, which is a completely different type of pollen allergen from those previously reported. This finding is essential to enrich information on allergen components and pave the way for molecular diagnosis or treatment strategies for Platanus acerifolia pollen allergy. [ABSTRACT FROM AUTHOR]

Published

2023

7. Purification and characterization of enolase as a novel allergen in Platanus acerifolia pollen.

Author

Jiao, Yong-Xin, Song, Le-Bin, Xu, Zhi-Qiang, Zhu, Dan-Xuan, Yang, Yong-Shi, Tian, Man, Sun, Jin-Lyu, and Wei, Ji-Fu

Subjects

*POLLEN, *ALLERGENS, *ENOLASE, *SYCAMORES, *ESCHERICHIA coli, *RECOMBINANT proteins, *CARRIER proteins, *IMMUNOGLOBULIN E

Abstract

• We purified a new IgE binding protein belonging to enolase family from the extract of P. acerifolia pollen. • We obtained the recombinant form of the protein through expression and purification. • The allergenicity of this novel allergen was characterized by ELISA, Western blot, inhibition ELISA, and basophil activation test. The pollen from Platanus acerifolia (P. acerifolia) is one of the main causes of allergic disorders. To date, only 4 allergens have been identified from this pollen. But previous studies showed that there still exist under-recognized allergens in it. The aim of this study was to comprehensively investigate the newly identified enolase (Pla a 6) as a novel allergen in the P. acerifolia pollen. The natural (n) Pla a 6 was purified by combined chromatographic strategies. According to the identified internal peptides, the cDNA sequence encoding this allergen was matched from the mRNA-sequencing results of P. acerifolia pollen, which was further amplified and cloned. The recombinant (r) Pla a 6 was expressed and purified from E. coli. The allergenicity of this novel allergen was characterized by enzyme linked immunosorbent assay (ELISA), Western blot, inhibition ELISA, and basophil activation test (BAT). A novel allergen from P. acerifolia pollen, named as Pla a 6 was thoroughly studied, which contained an open reading frame of 1338 bp encoding 445 amino acids. The IgE-binding activity of nPla a 6 was initially proved by Western-blot, and a similar IgE-binding pattern to rPla a 6 was also exhibited. Moreover, the positivity for specific IgE against rPla a 6 was tested as 45.95% (17/37) by ELISA, and IgE binding to pollen extract could be inhibited up to 45.77% by 10 µg/ml of rPla a 6. The protein was also confirmed to activate patients' basophils. In this study, a novel allergen belonging to enolase family was comprehensively investigated and characterized through its natural and recombinant forms in P. acerifolia pollen. The study will contribute to the development of novel molecular-based diagnostic and therapeutic approaches for P. acerifolia pollen allergy. [ABSTRACT FROM AUTHOR]

Published

2022