Your search keyword '"plant lectin"' showing total 228 results

1. Subacute symptoms of depression and anxiety in stress-exposed mice: Role of Schinus terebinthifolia Raddi leaf lectin (SteLL)

Author

de Lima, Bárbara Raíssa Ferreira, de Siqueira Patriota, Leydianne Leite, de Oliveira Marinho, Amanda, da Costa, Jainaldo Alves, Ribeiro, Beatriz Galdino, de Souza Santos, Valéria Bianca, Napoleão, Daniella Carla, Cavalcanti, Jorge Vinícius Fernandes Lima, Vieira, Leucio Duarte, Pereira, Michelly Cristiny, de Melo Rego, Moacyr Jesus Barreto, Pitta, Maira Galdino da Rocha, Napoleão, Thiago Henrique, Paiva, Patrícia Maria Guedes, and da Rosa, Michelle Melgarejo

Published

2025

2. Elucidating the glycan-binding specificity and structure of Cucumis melo agglutinin, a new R-type lectin

Author

Jon Lundstrøm, Emilie Gillon, Valérie Chazalet, Nicole Kerekes, Antonio Di Maio, Ten Feizi, Yan Liu, Annabelle Varrot, and Daniel Bojar

Subjects

carbohydrate, glycan array, melon, plant lectin, r-type, Science, Organic chemistry, QD241-441

Abstract

Plant lectins have garnered attention for their roles as laboratory probes and potential therapeutics. Here, we report the discovery and characterization of Cucumis melo agglutinin (CMA1), a new R-type lectin from melon. Our findings reveal CMA1’s unique glycan-binding profile, mechanistically explained by its 3D structure, augmenting our understanding of R-type lectins. We expressed CMA1 recombinantly and assessed its binding specificity using multiple glycan arrays, covering 1,046 unique sequences. This resulted in a complex binding profile, strongly preferring C2-substituted, beta-linked galactose (both GalNAc and Fuca1-2Gal), which we contrasted with the established R-type lectin Ricinus communis agglutinin 1 (RCA1). We also report binding of specific glycosaminoglycan subtypes and a general enhancement of binding by sulfation. Further validation using agglutination, thermal shift assays, and surface plasmon resonance confirmed and quantified this binding specificity in solution. Finally, we solved the high-resolution structure of the CMA1 N-terminal domain using X-ray crystallography, supporting our functional findings at the molecular level. Our study provides a comprehensive understanding of CMA1, laying the groundwork for further exploration of its biological and therapeutic potential.

Published

2024

3. Gut-brain axis: Review on the association between Parkinson's disease and plant lectins.

Author

Moin, Kayvon, Funk, Carly, Josephs, Meagan, Coombes, Kyle, Yeakle, Madeleine, Gala, Dhir, and Ahmed-Khan, Mohammad

Subjects

*PLANT lectins, *PARKINSON'S disease, *PLANT diseases, *MOLECULAR mimicry, *GASTROINTESTINAL system, *IRRITABLE colon

Abstract

Gastrointestinal (GI) involvement in the pathogenesis of Parkinson's Disease (PD) has been widely recognized and supported in recent literature. Prospective and retrospective studies found non-motor symptoms within the GI, specifically constipation, precede cardinal signs and cognitive decline by almost 20 years. In 2002, Braak et al. were the first to propose that PD is a six-stage propagating neuropathological process originating from the GI tract (GIT). Aggregated a-synuclein (a-syn) protein from the GIT is pathognomonic for the development of PD. This article reviews the current literature from the past 10 years as well as original research found in PubMed on the combined effects of enteric glial cells and lectins on the development of Parkinson's Disease. Studies have found that these aggregated and phosphorylated proteins gain access to the brain via retrograde transport through fast and slow fibers of intestinal neurons. Plant lectins, commonly found within plant-based diets, have been found to induce Leaky Gut Syndrome and can activate enteric glial cells, causing the release of pro-inflammatory cytokines. Oxidative stress on the enteric neurons, caused by a chronic neuro-inflammatory state, can cause a-syn aggregation and lead to Lewy Body formation, a hallmark finding in PD. Although the current literature provides a connection between the consumption of plant lectins and the pathophysiology of PD, further research is required to evaluate confounding variables such as food antigen mimicry and other harmful substances found in our diets. [ABSTRACT FROM AUTHOR]

Published

2022

4. The anti-inflamatory effect of Andira anthelmia lectin in rats involves inhibition of the prostanoid pathway, TNF-α and lectin domain.

Author

do Nascimento, Francisco Lucas Faustino, de Freitas Pires, Alana, Mota, Mário Rogério Lima, Isaias, Pedro Henrique Chaves, de Araujo, Diego Freitas, de Queiroz Martins, Maria Gleiciane, Moreira, Cleane Gomes, Cajazeiras, João Batista, Cavada, Benildo Sousa, do Nascimento, Kyria Santiago, and Assreuy, Ana Maria Sampaio

Abstract

Objective: To investigate the effect and mechanisms of Andira anthelmia lectin in rat models of acute inflammation. Material: AAL anti-inflammatory activity was evaluated in Wistar rat models of paw edema and peritonitis. Methods: AAL (0.01–1 mg/kg i.v.) was injected 30 min before stimulation with carrageenan and with initial and late phase inflammatory mediators into the animals paw or peritoneum for evaluation of cell migration (optical and intravital microscopy), paw edema (plethysmometry and histopathology); hyperalgesia (analgesimetry). Results: AAL inhibited leukocyte migration induced by carrageenan, mainly neutrophils to the peritoneal fluid, decreasing leukocyte adhesion. In the peritoneal fluid, AAL reduced the gene expression of TNF-α and cyclooxygenase, as well the levels of PGE2. AAL inhibited the paw edema induced by carrageenan, serotonin, histamine, TNF-α, PLA2 and PGE2, but not by L-arginine. In this model, AAL also inhibited mechanical hypernociception induced by TNF-α, PGE2, db-cAMP and capsaicin, and the activity of myeloperoxidase in the paw tissues. Conclusion: AAL presents anti-inflammatory effect in acute models of rat inflammation involving the participation of prostaglandins, TNF-α and lectin domain. [ABSTRACT FROM AUTHOR]

Published

2022

5. Banana Lectin from Musa paradisiaca Is Mitogenic for Cow and Pig PBMC via IL-2 Pathway and ELF1

Author

Roxane L. Degroote, Lucia Korbonits, Franziska Stetter, Kristina J. H. Kleinwort, Marie-Christin Schilloks, Barbara Amann, Sieglinde Hirmer, Stefanie M. Hauck, and Cornelia A. Deeg

Subjects

PBMC, polyclonal cell stimulation, complement pathway, plant lectin, Musa paradisiaca, banana lectin, Medicine

Abstract

The aim of the study was to gain deeper insights in the potential of polyclonal stimulation of PBMC with banana lectin (BanLec) from Musa paradisiaca. BanLec induced a marked proliferative response in cow and pig PBMC, but was strongest in pigs, where it induced an even higher proliferation rate than Concanavalin A. Molecular processes associated with respective responses in porcine PBMC were examined with differential proteome analyses. Discovery proteomic experiments was applied to BanLec stimulated PBMC and cellular and secretome responses were analyzed with label free LC-MS/MS. In PBMC, 3955 proteins were identified. After polyclonal stimulation with BanLec, 459 proteins showed significantly changed abundance in PBMC. In respective PBMC secretomes, 2867 proteins were identified with 231 differentially expressed candidates as reaction to BanLec stimulation. The transcription factor “E74 like ETS transcription factor 1 (ELF1)” was solely enriched in BanLec stimulated PBMC. BanLec induced secretion of several immune regulators, amongst them positive regulators of activated T cell proliferation and Jak-STAT signaling pathway. Top changed immune proteins were CD226, CD27, IFNG, IL18, IL2, CXCL10, LAT, ICOS, IL2RA, LAG3, and CD300C. BanLec stimulates PBMC of cows and pigs polyclonally and induces IL2 pathway and further proinflammatory cytokines. Proteomics data are available via ProteomeXchange with identifier PXD027505.

Published

2021

6. Growing Maize Root: Lectins Involved in Consecutive Stages of Cell Development.

Author

Aglyamova, Aliya, Petrova, Natalia, Gorshkov, Oleg, Kozlova, Liudmila, and Gorshkova, Tatyana

Subjects

LECTINS, PLANT cell walls, CORN growth, RECEPTOR-like kinases, PROTEIN domains, PLANT development, MORPHOGENESIS, CORN

Abstract

Proteins that carry specific carbohydrate-binding lectin domains have a great variety and are ubiquitous across the plant kingdom. In turn, the plant cell wall has a complex carbohydrate composition, which is subjected to constant changes in the course of plant development. In this regard, proteins with lectin domains are of great interest in the context of studying their contribution to the tuning and monitoring of the cell wall during its modifications in the course of plant organ development. We performed a genome-wide screening of lectin motifs in the Zea mays genome and analyzed the transcriptomic data from five zones of primary maize root with cells at different development stages. This allowed us to obtain 306 gene sequences encoding putative lectins and to relate their expressions to the stages of root cell development and peculiarities of cell wall metabolism. Among the lectins whose expression was high and differentially regulated in growing maize root were the members of the EUL, dirigent–jacalin, malectin, malectin-like, GNA and Nictaba families, many of which are predicted as cell wall proteins or lectin receptor-like kinases that have direct access to the cell wall. Thus, a set of molecular players was identified with high potential to play important roles in the early stages of root morphogenesis. [ABSTRACT FROM AUTHOR]

Published

2022

7. Binding of Orysata lectin induces an immune response in insect cells.

Author

Chen, Pengyu, De Schutter, Kristof, Pauwels, Jarne, Gevaert, Kris, Van Damme, Els J. M., and Smagghe, Guy

Subjects

*LECTINS, *IMMUNE response, *PLANT lectins, *CELL aggregation, *INSECTS, *DROSOPHILA melanogaster, *ANTIMICROBIAL peptides

Abstract

In mammals, plant lectinshave been shown to possess immunomodulatory properties, acting in both the innate and adaptive immune system to modulate the production of mediators of the immune response, ultimately improving host defences. At present, knowledge of immunomodulatory effects of plant lectins in insects is scarce. Treatment of insect cells with the Orysa sativa lectin, Orysata, was previously reported to induce cell aggregation, mimicking the immune process of encapsulation. In this project we investigated the potential immunomodulatory effects of this mannose‐binding lectin using Drosophila melanogaster S2 cells. Identification of the Orysata binding partners on the surface of S2 cells through a pull‐down assay and proteomic analysis revealed 221 putative interactors, several of which were immunity‐related proteins. Subsequent qPCR analysis revealed the upregulation of Toll‐ and immune deficiency (IMD)‐regulated antimicrobial peptides (Drs, Mtk, AttA, and Dpt) and signal transducers (Rel and Hid) belonging to the IMD pathway. In addition, the iron‐binding protein Transferrin 3 was identified as a putative interactor for Orysata, and treatment of S2 cells with Orysata was shown to reduce the intracellular iron concentration. All together, we believe these results offer a new perspective on the effects by which plant lectins influence insect cells and contribute to the study of their immunomodulatory properties. [ABSTRACT FROM AUTHOR]

Published

2022

8. Inhibition of Carrageenan-Induced Acute Inflammation in Mice by the Microgramma vacciniifolia Frond Lectin (MvFL).

Author

de Siqueira Patriota, Leydianne Leite, de Brito Marques Ramos, Dalila, e Silva, Mariana Gama, dos Santos, Angela Caroline Lima Amorim, Silva, Yasmym Araújo, Paiva, Patrícia Maria Guedes, Pontual, Emmanuel Viana, de Albuquerque, Lidiane Pereira, Mendes, Rosemairy Luciane, and Napoleão, Thiago Henrique

Subjects

*LEUCOCYTES, *INFLAMMATORY mediators, *ASCITIC fluids, *ANTI-inflammatory agents, *INFLAMMATION, *LECTINS, *PERITONEAL macrophages

Abstract

Most anti-inflammatory drugs used nowadays have an excessive cost and their prolonged use has been connected with several injurious effects. Thus, the search for new anti-inflammatory agents is increasing. Lectins are carbohydrate-interacting proteins that can modulate immune response and the release of inflammation mediators. The Microgramma vacciniifolia frond lectin (MvFL) was previously reported to be an immunomodulatory agent in vitro. This work aimed to evaluate the effects of MvFL on the in vivo inflammatory status in the carrageenan-induced peritonitis and paw edema, using female Swiss mice. The animals were pretreated intraperitoneally with MvFL (5 and 10 mg/kg). In the peritonitis assay, the total and differential migration of white blood cells was evaluated, as well as the levels of cytokines, nitric oxide (NO), and total proteins in the peritoneal fluid. In the paw edema evaluation, the paw volume was measured in the early (from 30 min–2 h) and late (3–4 h) phases of edema formation. MvFL (5 and 10 mg/kg) was efficient in reducing neutrophil infiltration, pro-inflammatory cytokines (IL-6, IL-17, and TNF-α), NO, and protein content in the peritoneal fluid. It also repressed the edema formation in the late phase of the assay. In conclusion, MvFL showed inhibitory effects in in vivo acute inflammation, which encouraged future studies exploiting its immunomodulatory ability. [ABSTRACT FROM AUTHOR]

Published

2022

9. Transgenic expression of Pinellia ternata agglutinin (PTA) and Arisaema heterophyllum agglutinin (AHA) in wheat confers resistance against the grain aphid, Sitobion miscanthi.

Author

Zhang, Yong, Deng, Qing, and Chen, Julian

Subjects

*APHIDS, *GREENBUG, *AGRICULTURAL pests, *MEDICINAL plants, *PATTERNS (Mathematics)

Abstract

The present study investigated the feeding behaviour and life-table parameters of the grain aphid Sitobion miscanthi in response to being fed on transgenic wheat lines expressing Pinellia ternata agglutinin (PTA) and Arisaema heterophyllum agglutinin (AHA), both of which originate from Chinese medicinal plants. The findings revealed that the feeding behaviour of S. miscanthi on transgenic wheat lines was negatively affected. The aphids that feed on the PTA and AHA transgenic wheat lines had longer total non-probing (np) periods than the aphids that feed on non-transformed lines but exhibited shorter durations of salivation (E1), phloem sap ingestion phase (E2) and sustained ingestion (E2 > 10 min). Moreover, aphids feeding on the 171 line, which expresses PTA, displayed a significant increase in the number of np patterns and time taken to initiate the first probe. Furthermore, the lifespan of S. miscanthi feeding on any of the wheat lines expressing PTA and AHA was found to reduce significantly. The maximum fecundity of the aphids on the AHA-expressing wheat lines was significantly lower than that of the control group. The net reproductive rate (R0) and intrinsic rate of increase (rm) were also significantly lower for the aphids feeding on the PTA and AHA transgenic wheat than for the aphids feeding on the non-transformed control plants. These findings indicate successful detection of resistance to S. miscanthi in the PTA- and AHA-expressing wheat lines, providing a new option for engineering protection against crop pests by expressing unique proteins that occur naturally in medicinal plants. [ABSTRACT FROM AUTHOR]

Published

2021

10. Growing Maize Root: Lectins Involved in Consecutive Stages of Cell Development

Author

Aliya Aglyamova, Natalia Petrova, Oleg Gorshkov, Liudmila Kozlova, and Tatyana Gorshkova

Subjects

root growth, plant lectin, transcriptomics, Zea mays, Euonymus europaeus lectin, calreticulin, Botany, QK1-989

Abstract

Proteins that carry specific carbohydrate-binding lectin domains have a great variety and are ubiquitous across the plant kingdom. In turn, the plant cell wall has a complex carbohydrate composition, which is subjected to constant changes in the course of plant development. In this regard, proteins with lectin domains are of great interest in the context of studying their contribution to the tuning and monitoring of the cell wall during its modifications in the course of plant organ development. We performed a genome-wide screening of lectin motifs in the Zea mays genome and analyzed the transcriptomic data from five zones of primary maize root with cells at different development stages. This allowed us to obtain 306 gene sequences encoding putative lectins and to relate their expressions to the stages of root cell development and peculiarities of cell wall metabolism. Among the lectins whose expression was high and differentially regulated in growing maize root were the members of the EUL, dirigent–jacalin, malectin, malectin-like, GNA and Nictaba families, many of which are predicted as cell wall proteins or lectin receptor-like kinases that have direct access to the cell wall. Thus, a set of molecular players was identified with high potential to play important roles in the early stages of root morphogenesis.

Published

2022

11. 药食同源植物丁香各部位抗营养因子分析.

Author

刘积光, 高玉梅, and 刘平怀

Subjects

CLOVE tree, TANNINS, TRYPSIN inhibitors, OXALIC acid, FOOD safety, TRYPSIN, PHYTIC acid

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

12. Portulaca elatior root contains a trehalose-binding lectin with antibacterial and antifungal activities.

Author

da Silva, José Dayvid Ferreira, da Silva, Suéllen Pedrosa, da Silva, Pollyanna Michelle, Vieira, Amanda Mota, de Araújo, Larissa Cardoso Correa, de Albuquerque Lima, Thâmarah, de Oliveira, Ana Patrícia Silva, do Nascimento Carvalho, Lidiane Vasconcelos, da Rocha Pitta, Maira Galdino, de Melo Rêgo, Moacyr Jesus Barreto, Pinheiro, Irapuan Oliveira, Zingali, Russolina Benedeta, do Socorro de Mendonça Cavalcanti, Maria, Napoleão, Thiago Henrique, and Paiva, Patrícia Maria Guedes

Subjects

*LECTINS, *PORTULACA, *ANTIBACTERIAL agents, *CARBOHYDRATE-binding proteins, *HEMAGGLUTINATION tests

Abstract

Abstract Lectins are carbohydrate-binding proteins broadly distributed in plants and have several biological functions, including antimicrobial action. Portulaca elatior is a Caatinga plant whose chemical composition and biotechnological potential have not been extensively studied. In this work, a lectin was isolated from P. elatior root extract and evaluated for antimicrobial activity. The P. elatior root lectin (PeRoL) showed native molecular mass of 33 kDa, pI 3.8 and is comprised of two subunits of 15 kDa linked by disulfide bonds. No sequence similarities with Viridiplantae proteins were observed. The PeRoL hemagglutinating activity (HA) was not affected by heating and was detected in a pH ranging from 4.0 to 8.0. Trehalose was identified as an endogenous inhibitor of PeRoL present in the roots. Bacteriostatic activity was detected against Enterococcus faecalis , Pseudomonas aeruginosa and Staphylococcus aureus (minimal inhibitory concentration of 8.1, 32.5 and 4.06 μg/mL, respectively). PeRoL induced the death of Candida albicans , Candida parapsilosis , Candida krusei , and Candida tropicalis cells, with a minimal fungicidal concentration of 16 μg/mL. The lectin (100 μg/mL) was not cytotoxic to human peripheral blood mononuclear cells (PBMCs) and did not show hemolytic activity. In conclusion, the roots of P. elatior contain a trehalose-binding, thermostable, and antimicrobial lectin. Highlights • A trehalose-binding lectin (PeRoL) was isolated from P. elatior root extract. • PeRoL is an acidic (pI 3.8) and thermostable protein comprised of subunits of 15 kDa linked by disulfide bonds. • Trehalose is an endogenous inhibitor of PeRoL present in the roots. • PeRoL showed bacteriostatic and fungicidal activities. • PeRoL is the first bioactive protein isolated from P. elatior. [ABSTRACT FROM AUTHOR]

Published

2019

13. Can Plant Lectins Help to Elucidate Insect Lectin-Mediated Immune Response?

Author

Pengyu Chen, Kristof De Schutter, Els J. M. Van Damme, and Guy Smagghe

Subjects

insect lectin, plant lectin, innate immunity, cellular immunity, humoral immunity, C-type lectin, Science

Abstract

Lectins are carbohydrate-binding proteins that recognize and selectively bind to specific sugar structures. This group of proteins is widespread in plants, animals, and microorganisms, and exerts a broad range of functions. Many plant lectins were identified as exogenous stimuli of vertebrate immunity. Despite being the largest and most diverse taxon on earth, the study of lectins and their functions in insects is lagging behind. In insects, research on lectins and their biological importance has mainly focused on the C-type lectin (CTL) family, limiting our global understanding of the function of insect lectins and their role in insect immunity. In contrast, plant lectins have been well characterized and the immunomodulatory effects of several plant lectins have been documented extensively in vertebrates. This information could complement the missing knowledge on endogenous insect lectins and contribute to understanding of the processes and mechanisms by which lectins participate in insect immunity. This review summarizes existing studies of immune responses stimulated by endogenous or exogenous lectins. Understanding how lectins modulate insect immune responses can provide insight which, in turn, can help to elaborate novel ideas applicable for the protection of beneficial insects and the development of novel pest control strategies.

Published

2021

14. Medicinal Applications of Plant Lectins

Author

Bah, Clara Shui Fern, Fang, Evandro Fei, Ng, Tzi Bun, Fang, Evandro Fei, editor, and Ng, Tzi Bun, editor

Published

2013

15. Lectins: An Overview

Author

Gupta, G. S. and Gupta, G. S.

Published

2012

16. Novel Concepts About the Role of Lectins in the Plant Cell

Author

Van Dammes, Els J. M., Fouquaert, Elke, Lannoo, Nausicaä, Vandenborre, Gianni, Schouppe, Dieter, Peumans, Willy J., and Wu, Albert M., editor

Published

2011

17. Lead Induces Different Responses of Two Subpopulations of Phagocytes in the Holothurian Eupentacta fraudatrix.

Author

Dolmatova, Lyudmila S. and Dolmatov, Igor Yu.

Abstract

In view of increasing lead pollution (Pb2+) of coastal waters, the compensatory abilities of holothurians need to be assessed. The goal of the work is to clarify the functional and phenotypical differences between two types of phagocytes (P1 and P2) in Eupentacta fraudatrix exposed to Pb(NO3)2. It has been shown that 2 mg L−1 lead exposure for 48 h increases the number of P2 phagocytes as compared to P1 cells, does not significantly affect cell viability in both P1 and P2 phagocyte fractions, and significantly enhances chromatin condensation in P2 but not in P1 phagocytes. A lead concentration of 4 mg L−1 increases the number of P1 phagocytes compared to that of P2 type, and does not change cell viability and chromatin condensation in P1 phagocytes. In the P2 type, it decreases cell viability and does not influence the level of apoptosis. The protection against lead-induced apoptosis is apparently mediated by the activities of antioxidant enzymes, especially glutathione S-transferase. The differences in labeling cell surface receptors of P1 and P2 phagocytes by plant lectins also indicate the specific phenotypic properties of these cells. The results clarify the potential and GSH-dependent mechanisms of immune adaptation in holothurians that have been shortly exposed to lead at concentrations close to the maximum environmentally relevant level in coastal waters. Additionally, P1 and P2 phagocytes are first shown to have different functions and phenotypes during the response to lead, which indicates the complexity of the phagocytic system in holothurians and contributes to understanding the immunity evolution. [ABSTRACT FROM AUTHOR]

Published

2018

18. Calliandra surinamensis lectin (CasuL) does not impair the functionality of mice splenocytes, promoting cell signaling and cytokine production.

Author

Procópio, Thamara Figueiredo, de Siqueira Patriota, Leydianne Leite, Paiva, Patrícia Maria Guedes, Napoleão, Thiago Henrique, da Silva Barros, Bárbara Rafaela, de Souza Aguiar, Lethícia Maria, de Melo, Cristiane Moutinho Lagos, and de Lorena, Virgínia Maria Barros

Subjects

*LECTINS, *OXIDATIVE stress, *TUMOR necrosis factors, *CANCER cells, *CYTOKINES

Abstract

Highlights • CasuL did not induce apoptosis or necrosis of mice splenocytes. • CasuL (12.5 μg/mL) stimulated cell proliferation after 48-h incubation. • High cytosolic ROS levels were found in cells incubated with CasuL. • The lectin did not affect [Ca2+] cyt , mitochondrial ROS and ΔΨm levels. • CasuL promoted high IL-2 and TNF-α production. Abstract CasuL is a lectin (carbohydrate-binding protein) isolated from the leaf pinnulae of Calliandra surinamensis that is toxic against cancer cells. In this study, the effects of CasuL on the activation of immune cells were evaluated in BALB/c mice splenocytes. Assays measuring the changes in cytosolic calcium concentration ([Ca2+] cyt), mitochondrial membrane potential (ΔΨm), and reactive oxygen species (ROS) levels associated with cell viability, proliferation, and cytokine and nitric oxide production were performed. The lectin (3.12–100 μg/mL) did not induce apoptosis or necrosis of splenocytes, and treatment for 48 h at 12.5 μg/mL stimulated cell proliferation. High cytosolic ROS levels were found in cells incubated with CasuL (12.5 μg/mL), but it did not affect [Ca2+] cyt , mitochondrial ROS, and ΔΨm levels. Furthermore, CasuL promoted high IL-2 and TNF-α production but did not affect nitric oxide release. In conclusion, CasuL was able to promote oxidative stress in mouse immune cells without inducing cell damage, and stimulated proliferation and cytokine production. These findings suggest the potential use of CasuL in future antitumoral and immunological targets. [ABSTRACT FROM AUTHOR]

Published

2018

19. Tarin, a Potential Immunomodulator and COX‐Inhibitor Lectin Found in Taro (Colocasia esculenta).

Author

Pereira, Patricia Ribeiro, Corrêa, Anna Carolina Nitzsche Teixeira Fernandes, Vericimo, Mauricio Afonso, and Paschoalin, Vânia Margaret Flosi

Subjects

TARO, LECTINS, FLAVONOIDS, MICRONUTRIENTS, ALKALOIDS

Abstract

Abstract: Taro (Colocasia esculenta) corm is a rustic staple food, rich in small starch granules, fibers, and bioactive phytoconstituents such as flavonoids, alkaloids, sterols, tannins, phytates, micronutrients, and proteins, including tarin, a GNA‐related lectin. Tarin exhibits recognized biocide activities against viruses and insects, has antitumoral properties and is an immunomodulator molecule candidate. It has been isolated in highly purified form (>90%) from taro corms through low‐cost and single‐step affinity chromatography. It comprises 2‐domain 27 to 28 kDa protomer, posttranslational cleaved into 2 nonidentical monomers, 11.9 and 12.6 kDa, held by noncovalent binding. At least 10 tarin isoforms sharing over 70% similarity have been described. The monomers assume the β‐prism II fold, consisting of 3 antiparallel β‐sheets formed by 4 β‐strands each. Tarin exhibits an expanded‐binding site for complex and high‐mannose N‐glycan chains 49, 212, 213, 358, 465, and 477 found on cell surface antigens of viruses, insects, cancer, and hematopoietic cells, explaining its broad biological activities. Tarin may stimulate innate and adaptive immune responses, enabling hosts to recover from infections or immunosuppressed status inherent to several pathological conditions. In a murine model, tarin stimulates the in vitro and in vivo proliferation of total spleen and bone marrow cells, especially B lymphocytes. Granulocyte repopulation has also been demonstrated in long‐term mice bone marrow cell cultures. As a potential immunomodulator, tarin, administered to immunosuppressed mice, attenuated cyclophosphamide‐induced leukopenia. We propose a molecular model that unites the potential prophylactic and therapeutic action of tarin on hematopoietic and cancer cells, as a potential immunomodulator. [ABSTRACT FROM AUTHOR]

Published

2018

20. Natural Products: Plant Lectins as Important Tools in Controlling Pest Insects

Author

Vandenborre, Gianni, Van Damme, Els J. M., Smagghe, Guy, Ishaaya, Isaac, editor, and Horowitz, A. Rami, editor

Published

2009

21. Plant Lectins as Part of the Plant Defense System Against Insects

Author

Van Damme, Els J.M. and Schaller, Andreas, editor

Published

2008

22. Introduction

Author

Sharon, Nathan and Lis, Halina

Published

2007

23. Detection, Occurence And Isolation

Author

Sharon, Nathan and Lis, Halina

Published

2007

24. Functions

Author

Sharon, Nathan and Lis, Halina

Published

2007

25. Nictaba Homologs from Arabidopsis thaliana Are Involved in Plant Stress Responses

Author

Lore Eggermont, Karolina Stefanowicz, and Els J. M. Van Damme

Subjects

plant lectin, Nictaba homolog, Arabidopsis thaliana, ArathNictaba, abiotic stress, biotic stress, Plant culture, SB1-1110

Abstract

Plants are constantly exposed to a wide range of environmental stresses, but evolved complicated adaptive and defense mechanisms which allow them to survive in unfavorable conditions. These mechanisms protect and defend plants by using different immune receptors located either at the cell surface or in the cytoplasmic compartment. Lectins or carbohydrate-binding proteins are widespread in the plant kingdom and constitute an important part of these immune receptors. In the past years, lectin research has focused on the stress-inducible lectins. The Nicotiana tabacum agglutinin, abbreviated as Nictaba, served as a model for one family of stress-related lectins. Here we focus on three non-chimeric Nictaba homologs from Arabidopsis thaliana, referred to as AN3, AN4, and AN5. Confocal microscopy of ArathNictaba enhanced green fluorescent protein (EGFP) fusion constructs transiently expressed in N. benthamiana or stably expressed in A. thaliana yielded fluorescence for AN4 and AN5 in the nucleus and the cytoplasm of the plant cell, while fluorescence for AN3 was only detected in the cytoplasm. RT-qPCR analysis revealed low expression for all three ArathNictabas in different tissues throughout plant development. Stress application altered the expression levels, but all three ArathNictabas showed a different expression pattern. Pseudomonas syringae infection experiments with AN4 and AN5 overexpression lines demonstrated a significantly higher tolerance of several transgenic lines to P. syringae compared to wild type plants. Finally, AN4 was shown to interact with two enzymes involved in plant defense, namely TGG1 and BGLU23. Taken together, our data suggest that the ArathNictabas represent stress-regulated proteins with a possible role in plant stress responses. On the long term this research can contribute to the development of more stress-resistant plants.

Published

2018

26. Banana Lectin from Musa paradisiaca Is Mitogenic for Cow and Pig PBMC via IL-2 Pathway and ELF1

Author

Stefanie M. Hauck, Roxane L. Degroote, Marie-Christin Schilloks, Lucia Korbonits, Kristina J. H. Kleinwort, Cornelia A. Deeg, Barbara Amann, Sieglinde Hirmer, and Franziska Stetter

Subjects

BanLec, Activated T cell proliferation, Proinflammatory cytokine, proteomics, Immune system, biochemistry, banana lectin, LC-MS/MS, biology, IL-2, PBMC, complement pathway, ELF1, hemic and immune systems, Molecular biology, Complement system, Polyclonal antibodies, Concanavalin A, Proteome, plant lectin, biology.protein, Medicine, polyclonal cell stimulation, Musa paradisiaca

Abstract

The aim of the study was to gain deeper insights in the potential of polyclonal stimulation of PBMC with banana lectin (BanLec) from Musa paradisiaca. BanLec induced a marked proliferative response in cow and pig PBMC, but was strongest in pigs, where it induced an even higher proliferation rate than Concanavalin A. Molecular processes associated with respective responses in porcine PBMC were examined with differential proteome analyses. Discovery proteomic experiments was applied to BanLec stimulated PBMC and cellular and secretome responses were analyzed with label free LC-MS/MS. In PBMC, 3955 proteins were identified. After polyclonal stimulation with BanLec, 459 proteins showed significantly changed abundance in PBMC. In respective PBMC secretomes, 2867 proteins were identified with 231 differentially expressed candidates as reaction to BanLec stimulation. The transcription factor “E74 like ETS transcription factor 1 (ELF1)” was solely enriched in BanLec stimulated PBMC. BanLec induced secretion of several immune regulators, amongst them positive regulators of activated T cell proliferation and Jak-STAT signaling pathway. Top changed immune proteins were CD226, CD27, IFNG, IL18, IL2, CXCL10, LAT, ICOS, IL2RA, LAG3, and CD300C. BanLec stimulates PBMC of cows and pigs polyclonally and induces IL2 pathway and further proinflammatory cytokines. Proteomics data are available via ProteomeXchange with identifier PXD027505.

Published

2021

27. A Bifunctional Molecule with Lectin and Protease Inhibitor Activities Isolated from Crataeva tapia Bark Significantly Affects Cocultures of Mesenchymal Stem Cells and Glioblastoma Cells

Author

Camila Ramalho Bonturi, Mariana Cristina Cabral Silva, Helena Motaln, Bruno Ramos Salu, Rodrigo da Silva Ferreira, Fabricio Pereira Batista, Maria Tereza dos Santos Correia, Patrícia Maria Guedes Paiva, Tamara Lah Turnšek, and Maria Luiza Vilela Oliva

Subjects

CrataBL, glioblastoma, mesenchymal stem cells, microenvironment, plant lectin, protease inhibitor, Organic chemistry, QD241-441

Abstract

Currently available drugs for treatment of glioblastoma, the most aggressive brain tumor, remain inefficient, thus a plethora of natural compounds have already been shown to have antimalignant effects. However, these have not been tested for their impact on tumor cells in their microenvironment-simulated cell models, e.g., mesenchymal stem cells in coculture with glioblastoma cell U87 (GB). Mesenchymal stem cells (MSC) chemotactically infiltrate the glioblastoma microenvironment. Our previous studies have shown that bone-marrow derived MSCs impair U87 growth and invasion via paracrine and cell−cell contact-mediated cross-talk. Here, we report on a plant-derived protein, obtained from Crataeva tapia tree Bark Lectin (CrataBL), having protease inhibitory/lectin activities, and demonstrate its effects on glioblastoma cells U87 alone and their cocultures with MSCs. CrataBL inhibited U87 cell invasion and adhesion. Using a simplified model of the stromal microenvironment, i.e., GB/MSC direct cocultures, we demonstrated that CrataBL, when added in increased concentrations, caused cell cycle arrest and decreased cocultured cells’ viability and proliferation, but not invasion. The cocultured cells’ phenotypes were affected by CrataBL via a variety of secreted immunomodulatory cytokines, i.e., G-CSF, GM-CSF, IL-6, IL-8, and VEGF. We hypothesize that CrataBL plays a role by boosting the modulatory effects of MSCs on these glioblastoma cell lines and thus the effects of this and other natural lectins and/or inhibitors would certainly be different in the tumor microenvironment compared to tumor cells alone. We have provided clear evidence that it makes much more sense testing these potential therapeutic adjuvants in cocultures, mimicking heterogeneous tumor−stroma interactions with cancer cells in vivo. As such, CrataBL is suggested as a new candidate to approach adjuvant treatment of this deadly tumor.

Published

2019

28. Diocleinae Lectins: Clues to Delineate Structure/Function Correlations

Author

Del Sol, Francisca Gallego, Ceccatto, Vania M., Nagano, Celso S., Moreno, Frederico B. M. B., Sampaio, Alexandre H., Grangeiro, Thalles B., Cavada, Benildo S., Calvete, Juan J., Kamp, Roza Maria, editor, Calvete, Juan J., editor, and Choli-Papadopoulou, Theodora, editor

Published

2004

29. An Update of Lectins from Marine Organisms: Characterization, Extraction Methodology, and Potential Biofunctional Applications

Author

Ahmmed, M. K., Bhowmik, S., Giteru, S. G., Zilani, M. N. H., Adadi, P., Islam, S. S., Kanwugu, O. N., Haq, M., Ahmmed, F., Ng, C. C. W., Chan, Y. S., Asadujjaman, M., Chan, G. H. H., Naude, R., Bekhit, A. E. -D. A., Ng, T. B., Wong, J. H., Ahmmed, M. K., Bhowmik, S., Giteru, S. G., Zilani, M. N. H., Adadi, P., Islam, S. S., Kanwugu, O. N., Haq, M., Ahmmed, F., Ng, C. C. W., Chan, Y. S., Asadujjaman, M., Chan, G. H. H., Naude, R., Bekhit, A. E. -D. A., Ng, T. B., and Wong, J. H.

Abstract

Lectins are a unique group of nonimmune carbohydrate-binding proteins or glycopro-teins that exhibit specific and reversible carbohydrate-binding activity in a non-catalytic manner. Lectins have diverse sources and are classified according to their origins, such as plant lectins, animal lectins, and fish lectins. Marine organisms including fish, crustaceans, and mollusks produce a myriad of lectins, including rhamnose binding lectins (RBL), fucose-binding lectins (FTL), mannose-binding lectin, galectins, galactose binding lectins, and C-type lectins. The widely used method of extracting lectins from marine samples is a simple two-step process employing a polar salt solution and purification by column chromatography. Lectins exert several immunomodulatory functions, including pathogen recognition, inflammatory reactions, participating in various hemocyte functions (e.g., agglutination), phagocytic reactions, among others. Lectins can also control cell prolifer-ation, protein folding, RNA splicing, and trafficking of molecules. Due to their reported biological and pharmaceutical activities, lectins have attracted the attention of scientists and industries (i.e., food, biomedical, and pharmaceutical industries). Therefore, this review aims to update current information on lectins from marine organisms, their characterization, extraction, and biofunctionali-ties. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2022

30. Expression of Binding Properties of Gal/GalNAc Reactive Lectins by Mammalian Glycotopes : An Updated Report

Author

Wu, Albert M. and Wu, Albert M., editor

Published

2001

31. MR60/ERGIC-53, a Mannose-Specific Shuttling Intracellular Membrane Lectin

Author

Roche, Annie-Claude, Monsigny, Michel, Hennig, W., editor, Nover, L., editor, Scheer, U., editor, and Crocker, Paul R., editor

Published

2001

32. Nictaba Homologs from Arabidopsis thaliana Are Involved in Plant Stress Responses.

Author

Eggermont, Lore, Stefanowicz, Karolina, and Van Damme, Els J. M.

Subjects

IMMUNOLOGIC receptors, ARABIDOPSIS thaliana, PLANT defenses

Abstract

Plants are constantly exposed to a wide range of environmental stresses, but evolved complicated adaptive and defense mechanisms which allow them to survive in unfavorable conditions. These mechanisms protect and defend plants by using different immune receptors located either at the cell surface or in the cytoplasmic compartment. Lectins or carbohydrate-binding proteins are widespread in the plant kingdom and constitute an important part of these immune receptors. In the past years, lectin research has focused on the stress-inducible lectins. The Nicotiana tabacum agglutinin, abbreviated as Nictaba, served as a model for one family of stress-related lectins. Here we focus on three non-chimeric Nictaba homologs from Arabidopsis thaliana, referred to as AN3, AN4, and AN5. Confocal microscopy of ArathNictaba enhanced green fluorescent protein (EGFP) fusion constructs transiently expressed in N. benthamiana or stably expressed in A. thaliana yielded fluorescence for AN4 and AN5 in the nucleus and the cytoplasm of the plant cell, while fluorescence for AN3 was only detected in the cytoplasm. RT-qPCR analysis revealed low expression for all three ArathNictabas in different tissues throughout plant development. Stress application altered the expression levels, but all three ArathNictabas showed a different expression pattern. Pseudomonas syringae infection experiments with AN4 and AN5 overexpression lines demonstrated a significantly higher tolerance of several transgenic lines to P. syringae compared to wild type plants. Finally, AN4 was shown to interact with two enzymes involved in plant defense, namely TGG1 and BGLU23. Taken together, our data suggest that the ArathNictabas represent stress-regulated proteins with a possible role in plant stress responses. On the long term this research can contribute to the development of more stress-resistant plants. [ABSTRACT FROM AUTHOR]

Published

2018

33. Protective effects of Phaseolus vulgaris lectin against viral infection in Drosophila.

Author

Ekowati, Heny, Junko Arai, Putri, Ayu Sekarani Damana, Nainu, Firzan, Akiko Shiratsuchi, and Nakanishi, Yoshinobu

Subjects

*KIDNEY bean, *PHYTOHEMAGGLUTININS, *HEMAGGLUTININ, *LECTINS, *MESSENGER RNA

Abstract

Phytohemagglutinin (PHA) isolated from the family of Phaseolus vulgaris beans is a promising agent against viral infection; however, it has not yet been demonstrated in vivo. We herein investigated this issue using Drosophila as a host. Adult flies were fed lectin approximately 12 h before they were subjected to a systemic viral infection. After a fatal infection with Drosophila C virus, death was delayed and survival was longer in flies fed PHA-P, a mixture of L4, L3E1, and L2E2, than in control unfed flies. We then examined PHA-L4, anticipating subunit L as the active form, and confirmed the protective effects of this lectin at markedly lower concentrations than PHA-P. In both experiments, lectin feeding reduced the viral load prior to the onset of fly death. Furthermore, we found a dramatic increase in the levels of the mRNAs of phagocytosis receptors in flies after feeding with PHA-L4 while a change in the levels of the mRNAs of antimicrobial peptides was marginal. We concluded that P. vulgaris PHA protects Drosophila against viral infection by augmenting the level of host immunity. [ABSTRACT FROM AUTHOR]

Published

2017

34. pCramoll and rCramoll lectins induce cell death in human prostate adenocarcinoma (PC-3) cells by impairment of mitochondrial homeostasis.

Author

de Oliveira Figueirôa, Evellyne, Aranda-Souza, Mary Ângela, Varejão, Nathalia, Rossato, Franco Aparecido, Costa, Rute Alves Pereira, Figueira, Tiago Rezende, da Silva, Luís Cláudio Nascimento, Castilho, Roger Frigério, Vercesi, Aníbal Eugênio, and dos Santos Correia, Maria Tereza

Subjects

*LECTINS, *PROSTATE cancer treatment, *CELL death, *MITOCHONDRIAL physiology, *ANTINEOPLASTIC agents, *THERAPEUTICS

Abstract

Lectins from Cratylia mollis seed have shown potential in vivo antitumor actions, however the mechanism have not yet been addressed. Here we evaluated the antitumor effects of native (pCramoll) and recombinant (rCramoll) lectins from C. mollis against human prostate adenocarcinoma (PC-3) cells. The viability of PC-3 cells was analyzed with the MTT assay and ANNEXIN V/propidium iodide staining. The actions of pCramoll or rCramoll on mitochondrial superoxide production, free cytosolic calcium concentration and mitochondrial membrane potential were evaluated using fluorescent probes (MitoSox Red, Fura 2-AM and safranin O, respectively). pCramoll and rCramoll reduced the viability of PC-3 cells in a dose-dependent manner. Both lectins increased the generation of mitochondrial superoxide as well as the concentration of cytosolic calcium. These changes led to a decrease in oxidative phosphorylation, which impaired the formation of ATP. The resulting cell death was not blocked by MPT (mitochondrial permeability transition) inhibitors (Debio 025 or bongkrekic acid). Thus pCramoll and rCramoll promote PC-3 cell death through calcium signaling, leading to mitochondrial collapse. This work provides more insights into the action of pCramoll and rCramoll against cancer cells. These lectins represent valuable tools for biomedical research. [ABSTRACT FROM AUTHOR]

Published

2017

35. CasuL: A new lectin isolated from Calliandra surinamensis leaf pinnulae with cytotoxicity to cancer cells, antimicrobial activity and antibiofilm effect.

Author

Procópio, Thamara Figueiredo, de Siqueira Patriota, Leydianne Leite, de Moura, Maiara Celine, da Silva, Pollyanna Michelle, de Oliveira, Ana Patrícia Silva, do Nascimento Carvalho, Lidiane Vasconcelos, de Albuquerque Lima, Thâmarah, Soares, Tatiana, da Silva, Túlio Diego, Breitenbach Barroso Coelho, Luana Cassandra, da Rocha Pitta, Maira Galdino, de Melo Rêgo, Moacyr Jesus Barreto, Bressan Queiroz de Figueiredo, Regina Celia, Guedes Paiva, Patrícia Maria, and Napoleão, Thiago Henrique

Subjects

*LECTINS, *HEMAGGLUTININ, *CALLIANDRA, *CYTOLOGY, *CANCER cells

Abstract

This work describes the isolation of a lectin (CasuL) from the leaf pinnulae of Calliandra surinamensis and the evaluation of its cytotoxic, antimicrobial and antibiofilm properties. Proteins from pinnulae extract were precipitated with ammonium sulphate (60% saturation) and submitted to Sephadex G-75 chromatography, which yielded isolated CasuL (purification factor: 113). Native CasuL is an acidic protein (pI 5.82) with a relative molecular mass of 48 kDa. This lectin is also an oligomeric protein composed of three subunits and mass spectrometry revealed similarities with a Sorghum bicolor protein. CasuL did not undergo unfolding when heated but changes in conformation and hemagglutinating activity were detected at basic pH. CasuL did not reduce the viability of human peripheral blood mononuclear cells but was toxic to leukemic K562 cells (IC 50 67.04 ± 5.78 μg/mL) and breast cancer T47D cells (IC 50 : 58.75 ± 2.5 μg/ mL). CasuL (6.25–800 μg/mL) only showed bacteriostatic effect but was able to reduce biofilm formation by Staphylococcus saprophyticcus and Staphylococcus aureus (non-resistant and oxacillin-resistant isolates). CasuL showed antifungal activity against Candida krusei causing alterations in cell morphology and damage to cell wall. In conclusion, the pinnulae of C. surinamensis leaves contain a thermo-stable lectin with biotechnological potential as cytotoxic, antibiofilm, and antifungal agent. [ABSTRACT FROM AUTHOR]

Published

2017

36. Mistletoe lectins as immunostimulants (chemistry, pharmacology and clinic)

Author

Samtleben, Rainer, Hajto, Tibor, Hostanska, Katarina, Wagner, Hildebert, Parnham, Michael J., editor, and Wagner, H., editor

Published

1999

37. Seed Lectins

Author

Peumans, Willy J., Van Damme, Els J. M., Shewry, Peter R., editor, and Casey, Rod, editor

Published

1999

38. The Influence of Plant Lectins on Immune Response against other Dietary Proteins

Author

Jørgensen, T. M. R., Mikkelsen, T., Tonsgaard, M. C., Rossen, M., Sørensen, S., Frøkiær, H., Guéguen, Jacques, editor, and Popineau, Yves, editor

Published

1998

39. Molecular Characterization and Tandem Mass Spectrometry of the Lectin Extracted from the Seeds of Dioclea sclerocarpa Ducke

Author

Kyria Santiago do Nascimento, Alexandre Holanda Sampaio, Benildo Sousa Cavada, Bruno Anderson Matias da Rocha, Celso Shiniti Nagano, Edson Holanda Teixeira, Wanius Garcia, Antônia Sâmia Fernandes do Nascimento, André Luiz Coelho da Silva, João Batista Cajazeiras, Jorge Luis Almeida Correia, Ronniery Ilario Pereira, Bruno Lopes de Sousa, and Ana Cláudia Silva Gondim

Subjects

plant lectin, diocleinae, Dioclea sclerocarpa, Organic chemistry, QD241-441

Abstract

Lectin from the seeds of Dioclea sclerocarpa (DSL) was purified in a single step by affinity chromatography on a Sephadex G-50 column. The primary sequence, as determined by tandem mass spectrometry, revealed a protein with 237 amino acids and 81% of identity with ConA. DSL has a molecular mass of 25,606 Da. The β and γ chains weigh 12,873 Da and 12,752 Da, respectively. DSL hemagglutinated rabbit erythrocytes (both native and treated with proteolytic enzymes), showing stability even after one hour of exposure to a specific pH range. The hemagglutinating activity of DSL was optimal between pH 6.0 and 8.0, but was inhibited after incubation with D-galactose and D-glucose. The pure protein possesses a molecular mass of 25 kDa by SDS-PAGE and 25,606 Da by mass spectrometry. The secondary structure content was estimated using the software SELCON3. The results indicate that b-sheet secondary structures are predominant in DSL (approximately 42.3% antiparallel b-sheet and 6.7% parallel b-sheet). In addition to the b-sheet, the predicted secondary structure of DSL features 4.1% a-helices, 15.8% turns and 31.3% other contributions. Upon thermal denaturation, evaluated by measuring changes in ellipticity at 218 nm induced by a temperature increase from 20 °C to 98 °C, DSL displayed cooperative sigmoidal behavior with transition midpoint at 84 °C and permitted the observation of two-state model (native and denatured).

Published

2011

40. Supramolecular Binding with Lectins: A New Route for Non-Covalent Functionalization of Polysaccharide Matrices

Author

Devis Montroni, Matteo Di Giosia, Matteo Calvaresi, Giuseppe Falini, Montroni, Devi, Di Giosia, Matteo, Calvaresi, Matteo, and Falini, Giuseppe

Subjects

Wheat Germ Agglutinins, Organic Chemistry, Plant Lectin, Pharmaceutical Science, Chitin, WGA, Analytical Chemistry, Chemistry (miscellaneous), Polysaccharides, Lectins, polysaccharide, Drug Discovery, Molecular Medicine, functionalization, lectin, Physical and Theoretical Chemistry, Plant Lectins, Wheat Germ Agglutinin, supramolecular

Abstract

The chemical functionalization of polysaccharides to obtain functional materials has been of great interest in the last decades. This traditional synthetic approach has drawbacks, such as changing the crystallinity of the material or altering its morphology or texture. These modifications are crucial when a biogenic matrix is exploited for its hierarchical structure. In this work, the use of lectins and carbohydrate-binding proteins as supramolecular linkers for polysaccharide functionalization is proposed. As proof of concept, a deproteinized squid pen, a hierarchically-organized β-chitin matrix, was functionalized using a dye (FITC) labeled lectin; the lectin used was the wheat germ agglutinin (WGA). It has been observed that the binding of this functionalized protein homogenously introduces a new property (fluorescence) into the β-chitin matrix without altering its crystallographic and hierarchical structure. The supramolecular functionalization of polysaccharides with protein/lectin molecules opens up new routes for the chemical modification of polysaccharides. This novel approach can be of interest in various scientific fields, overcoming the synthetic limits that have hitherto hindered the technological exploitation of polysaccharides-based materials.

Published

2022

41. Isolation of Plant Lectins

Author

Rüdiger, H., Gabius, Hans-Joachim, editor, and Gabius, Sigrun, editor

Published

1993

42. Lectin-Glycoconjugate Cross-Linking Interactions

Author

Mandal, D. K., Brewer, C. F., Gabius, Hans-Joachim, editor, and Gabius, Sigrun, editor

Published

1993

43. cDNA Cloning and Expression of Plant Lectins from the Legume Family

Author

Yamamoto, K., Konami, Y., Kusui-Kawashima, K., Osawa, T., Irimura, T., Gabius, Hans-Joachim, editor, and Gabius, Sigrun, editor

Published

1993

44. Purification of Two Novel Sugar Acid-binding Lectins from Haplomitrium Mnioides (bryophyte, Plantae) and their Preliminary Characterization.

Author

Masuzaki, Hiroaki, Hosono, Masahiro, and Nitta, Kazuo

Abstract

Two novel sugar acid-binding lectins were purified from Haplomitrium mnioides (Lindb.) Schust. using a procedure consisting of ammonium sulfate precipitation, G-50 gel filtration, hydroxyapatite chromatography, and HW-50 gel filtration. We reported their partial physicochemical properties: molecular weight, affinity for carbohydrates and organic acids, pH stability, and dependence of their hemagglutination activity on metal ions. We also determined their N-terminal amino acid sequences. H. mnioides lectins (HMLs) were monomers (one with a molecular weight of approximately 27 kDa, and the other with a molecular weight of approximately 105 kDa) under both nonreducing and reducing conditions. They were named HML27 and HML105, respectively. Both HMLs had an affinity for N-acetylneuraminic acid, d-glucuronic acid, d-glucaric acid, bovine submaxillary mucin, heparin, and organic acids, such as citrate, 2-oxoglutaric acid, and d-2-hydroxyglutarate. Furthermore, HML27 had an affinity for α- d-galacturonic acid, d-malate, l-malate, and pyruvate, while HML105 had an affinity for d-gluconic acid. HML27 and HML105 are novel plant lectins: they have an affinity for sugar acids and organic acids and specifically recognize the carboxyl group, and there is no homology between their N-terminal amino acid sequences and those of the previously described lectins and agglutinins. [ABSTRACT FROM AUTHOR]

Published

2017

45. Brain, nerves and muscles: Neoglycoproteins in the practice of neuromorphology and neuropathology

Author

Bardosi, A., Brkovic, D., Gabius, H.-J., Gabius, Hans Joachim, editor, and Gabius, Sigrun, editor

Published

1991

46. Lectin Typing of Helicobacter pylori

Author

Ascencio, F., Guruge, J. L., Ljungh, Å., Mégraud, F., Wei, S., Wadström, T., Malfertheiner, P., editor, and Ditschuneit, H., editor

Published

1990

47. Structure and Biological Properties of Ribosome-Inactivating Proteins and Lectins from Elder (Sambucus nigra L.) Leaves

Author

Rosario Iglesias, Rosita Russo, Nicola Landi, Mariangela Valletta, Angela Chambery, Antimo Di Maro, Andrea Bolognesi, José M. Ferreras, Lucía Citores, Iglesias, Rosario, Russo, Rosita, Landi, Nicola, Valletta, Mariangela, Chambery, Angela, Di Maro, Antimo, Bolognesi, Andrea, Ferreras, José M, Citores, Lucía, Iglesias, R., Russo, R., Landi, N., Valletta, M., Chambery, A., Di Maro, A., Bolognesi, A., Ferreras, J. M., and Citores, L.

Subjects

N-Glycosyl Hydrolase, Adenine, Health, Toxicology and Mutagenesis, Plant Lectin, galactose, Plant Protein, Plant, Ribosome Inactivating Protein, Toxicology, Ribosome, ricin, anticancer agent, Sambucu, protein synthesis (inhibition), anticancer agents, lectin, nanoLC–tandem mass spectrometry (nLC-MS/MS), ribosome-inactivating protein (RIP), sugar binding, RNA, Ribosomal, Sambucus nigra, Amino Acid Sequence, Plant Leave

Abstract

Ribosome-inactivating proteins (RIPs) are a group of proteins with rRNA N-glycosylase activity that catalyze the removal of a specific adenine located in the sarcin–ricin loop of the large ribosomal RNA, which leads to the irreversible inhibition of protein synthesis and, consequently, cell death. The case of elderberry (Sambucus nigra L.) is unique, since more than 20 RIPs and related lectins have been isolated and characterized from the flowers, seeds, fruits, and bark of this plant. However, these kinds of proteins have never been isolated from elderberry leaves. In this work, we have purified RIPs and lectins from the leaves of this shrub, studying their main physicochemical characteristics, sequences, and biological properties. In elderberry leaves, we found one type 2 RIP and two related lectins that are specific for galactose, four type 2 RIPs that fail to agglutinate erythrocytes, and one type 1 RIP. Several of these proteins are homologous to others found elsewhere in the plant. The diversity of RIPs and lectins in the different elderberry tissues, and the different biological activities of these proteins, which have a high degree of homology with each other, constitute an excellent source of proteins that are of great interest in diagnostics, experimental therapy, and agriculture.

Published

2022

48. Binding of Orysata lectin induces an immune response in insect cells

Author

Guy Smagghe, Pengyu Chen, Kris Gevaert, Kristof De Schutter, Els J.M. Van Damme, and Jarne Pauwels

Subjects

Proteomics, COMPUTATIONAL PLATFORM, Evolution, Antimicrobial peptides, PROTEIN, Genetics and Molecular Biology, Biology, WHEAT-GERM-AGGLUTININ, General Biochemistry, Genetics and Molecular Biology, immune response, IMD PATHWAYS, Immune system, Downregulation and upregulation, Behavior and Systematics, Lectins, CONCANAVALIN-A, Animals, Drosophila Proteins, RICE, Ecology, Evolution, Behavior and Systematics, Mammals, cell culture, PLANT-LECTINS, pull-down, Ecology, Schneider 2 cells, iron uptake, IRON, Immunity, Lectin, Biology and Life Sciences, Acquired immune system, Orysata, Cell aggregation, Immunity, Innate, Cell biology, Drosophila melanogaster, Cell culture, DROSOPHILA-MELANOGASTER, Insect Science, General Biochemistry, plant lectin, biology.protein, Plant Lectins, Agronomy and Crop Science, TOLL

Abstract

In mammals, plant lectins have been shown to possess immunomodulatory properties, acting in both the innate and adaptive immune system to modulate the production of mediators of the immune response, ultimately improving host defences. At present, knowledge of immunomodulatory effects of plant lectins in insects is scarce. Treatment of insect cells with the Orysa sativa lectin, Orysata, was previously reported to induce cell aggregation, mimicking the immune process of encapsulation. In this project we investigated the potential immunomodulatory effects of this mannose-binding lectin using Drosophila melanogaster S2 cells. Identification of the Orysata binding partners on the surface of S2 cells through a pull-down assay and proteomic analysis revealed 221 putative interactors, several of which were immunity-related proteins. Subsequent qPCR analysis revealed the upregulation of Toll- and immune deficiency (IMD)-regulated antimicrobial peptides (Drs, Mtk, AttA and Dpt) and signal transducers (Rel and Hid) belonging to the IMD pathway. In addition, the iron-binding protein Transferrin 3 was identified as a putative interactor for Orysata, and treatment of S2 cells with Orysata was shown to reduce the intracellular iron concentration. All together, we believe these results offer a new perspective on the effects by which plant lectins influence insect cells and contribute to the study of their immunomodulatory properties. This article is protected by copyright. All rights reserved.

Published

2021

49. Identification of Novel Pathways in Plant Lectin-Induced Cancer Cell Apoptosis.

Author

Zheng Shi, Rong Sun, Tian Yu, Rong Liu, Li-Jia Cheng, Jin-Ku Bao, Liang Zou, and Yong Tang

Subjects

*CANCER cells, *APOPTOSIS, *PLANT lectins, *ANTINEOPLASTIC agents, *PROTEIN-protein interactions, *CELL death

Abstract

Plant lectins have been investigated to elucidate their complicated mechanisms due to their remarkable anticancer activities. Although plant lectins seems promising as a potential anticancer agent for further preclinical and clinical uses, further research is still urgently needed and should include more focus on molecular mechanisms. Herein, a Naïve Bayesian model was developed to predict the protein-protein interaction (PPI), and thus construct the global human PPI network. Moreover, multiple sources of biological data, such as smallest shared biological process (SSBP), domain-domain interaction (DDI), gene co-expression profiles and cross-species interolog mapping were integrated to build the core apoptotic PPI network. In addition, we further modified it into a plant lectin-induced apoptotic cell death context. Then, we identified 22 apoptotic hub proteins in mesothelioma cells according to their different microarray expressions. Subsequently, we used combinational methods to predict microRNAs (miRNAs) which could negatively regulate the abovementioned hub proteins. Together, we demonstrated the ability of our Naïve Bayesian model-based network for identifying novel plant lectin-treated cancer cell apoptotic pathways. These findings may provide new clues concerning plant lectins as potential apoptotic inducers for cancer drug discovery. [ABSTRACT FROM AUTHOR]

Published

2016

50. Structural studies on a non-toxic homologue of type II RIPs from bitter gourd: Molecular basis of non-toxicity, conformational selection and glycan structure.

Author

Chandran, Thyageshwar, Sharma, Alok, and Vijayan, M

Subjects

*GLYCAN structure, *MOLECULAR conformation, *CRYSTAL structure, *LECTINS, *MOMORDICA charantia, *PROTEIN-carbohydrate interactions

Abstract

The structures of nine independent crystals of bitter gourd seed lectin (BGSL), a non-toxic homologue of type II RIPs, and its sugar complexes have been determined. The four-chain, two-fold symmetric, protein is made up of two identical two-chain modules, each consisting of a catalytic chain and a lectin chain, connected by a disulphide bridge. The lectin chain is made up of two domains. Each domain carries a carbohydrate binding site in type II RIPs of known structure. BGSL has a sugar binding site only on one domain, thus impairing its interaction at the cell surface. The adenine binding site in the catalytic chain is defective. Thus, defects in sugar binding as well as adenine binding appear to contribute to the non-toxicity of the lectin. The plasticity of the molecule is mainly caused by the presence of two possible well defined conformations of a surface loop in the lectin chain. One of them is chosen in the sugar complexes, in a case of conformational selection, as the chosen conformation facilitates an additional interaction with the sugar, involving an arginyl residue in the loop. The N-glycosylation of the lectin involves a plant-specific glycan while that in toxic type II RIPs of known structure involves a glycan which is animal as well as plant specific. [ABSTRACT FROM AUTHOR]

Published

2015