Impact de la galectine-9 exogène sur les lymphocytes T humains et caractérisation de nouveaux anticorps monoclonaux à visée thérapeutique / Impact of exogenous galectin-9 on human T cells and characterization of new monoclonal antibodies for therapeutic use

Lhuillier, Claire

12 February 2016

La galectine-9 (gal-9) est une lectine multifonctionnelle se liant à des glycoprotéines ou des glycolipides possédant des liaisons β-galactosides. Elle est impliquée dans plusieurs pathologies telles que le carcinome nasopharyngé associé au virus d’Epstein-Barr ou les infections chroniques par les virus des hépatites B et C.La gal-9 possède une activité immunosuppressive prédominante liée notamment à une stimulation de l’expansion et de l’activation des lymphocytes T (LTs) régulateurs. Ses effets sur les LTs conventionnels sont plus complexes : elle induit un phénomène d’apoptose précoce dans une fraction des LTs conventionnels mais aussi une activation et une prolifération dans une autre fraction incluant des LTs CD4+ Th1. D’où la nécessité d’explorer les événements de signalisation déclenchés par la gal-9 exogène dans les LTs humains.Notre recherche a été centrée sur des LTs CD4+ humains provenant de lignées leucémiques ou de PBMCs. Nos résultats montrent que le complexe TCR-CD3 et la kinase Lck sont requis pour la mobilisation de Ca2+ et la production de cytokines dont l’expression est induite en aval par la gal-9 (IL-2 et IFN-γ). A l’inverse, l’apoptose déclenchée par la gal-9 n’est pas réduite lorsque les cellules sont invalidées pour l’un de ces composants. Ces données indiquent que la gal-9 agit sur les LTs par deux voies de signalisation distinctes: l’une mimant l’activation classique du TCR avec une contribution majeure des éléments proximaux du complexe TCR, notamment Lck, et l’autre qui aboutit à l’apoptose des cellules et qui est indépendante de ce complexe.Parallèlement à ce volet fondamental de notre recherche, nous avons caractérisé de nouveaux anticorps monoclonaux (AcM) dirigés contre la gal-9. Ceux-ci neutralisent certains effets de la gal-9 sur les LTs humains tels que l’apoptose. Nous avons défini certaines propriétés immunochimiques de nos AcM en vue de leur utilisation potentielle en thérapeutique. Nous pensons que ces travaux pourraient ouvrir la voie à de nouvelles approches dans le champ actuellement en pleine expansion des thérapeutiques qui visent à une restauration de la réponse immunitaire anti-tumorale. / Galectin-9 (gal-9) is a multifunctional lectin binding some glycoproteins and glycolipids containing β-galactoside-bounds. It is involved in several pathologies such as Epstein-Barr virus-associated nasopharyngeal carcinoma or chronic infections by the hepatitis B and C viruses.Gal-9 has predominant immunosuppressive functions notably supported by its capacity to stimulate the expansion and activation of regulatory T cells. Its effects on conventional T cells are more complex: it induces apoptosis in a fraction of them, but it also activates and stimulates proliferation of another fraction including CD4+ Th1 cells. Hence the need to explore the signaling events triggered by exogenous gal-9 in human T cells.Our study was mainly focused on human CD4+ T cells from leukemic cell lines and PBMCs. We found that the TCR-CD3 complex and the Lck kinase were required for Ca2+ mobilization and subsequent cytokines production (IL-2 and IFN-γ) induced by gal-9 in T cells. By contrast, gal-9-triggered apoptosis was not reduced by the knocking-out of these TCR components. These data demonstrate that gal-9 acts on T cells by at least two distinct pathways: one mimicking the classical activation of the TCR with a mandatory contribution of proximal elements of the TCR complex, especially Lck, and another resulting in apoptosis which is independent of this complex.In parallel to this basic research, we characterized new monoclonal antibodies (mAb) targeting gal-9. We demonstrated that our mAb can neutralize the apoptosis and other gal-9 effects in human T cells and we defined some of their immunochemical properties in view of their potential therapeutic use. We believe that this work could pave the way for new approaches in the rapidly expanding field of therapeutics aiming at a restoration of the anti-tumor immune response.

Galectine-9

Lymphocyte T

Apoptose

Signalisation

Anticorps monoclonaux

Galectin-9

T cell

Apoptosis

Signaling

Monoclonal antibodies

Glykobie nádorů hlavy a krku / Glycobiology of the head and neck cancer

Valach, Jaroslav

January 2014

iii Abstract Glycobiology represents a very progressive subject of cell biology. Protein-saccharide interactions play not only supporting and cell organization role, but they also represent medium for information storage and its decoding. Galectins, group of animal lectins (saccharide-binding proteins), which have selective affinity to ß-galactosides, are multifactorial molecules. They participate in cell-cell and cell-matrix interaction, transmembrane signaling, apoptosis, pre- mRNA splicing and are also present in various types of carcinomas. High expression of galectin-1 has been detected in cancer stroma originated from squamous cell epithelium. In the previous study we established that the fibroblasts - myofibroblasts transition, apart from the known TGF- beta, is also induced by galectin-1. We compared relationship between galectin-1 expression, presence of myofibroblasts and gene expression in tissue samples from patients with head and neck squamous cell carcinoma. Cancer stroma with myofibroblasts was rich in galectin-1 expression in comparison with stroma without myofibroblasts. Moreover, we used microarray analysis (ILLUMINA) to compare the whole genome transcriptome from samples with and without presence of galectin-1. High expression of galectin-1 in tissue samples corresponded with expression...

Sensitization of glioblastoma tumor micro-environment to chemo- and immunotherapy by Galectin-1 reduction after intranasal anti-Gal-1 siRNA administration

Van Woensel, Matthias

13 December 2016

High grade gliomas remain a devastating disease, for which a curative therapy is virtually absent. The high medical need is unmet by novel treatment strategies and advances in chemo-and radiotherapy. Patients diagnosed for GBM face a median survival of 15 months after maximal standard-of-care therapy, and relapse is often observed due to micro-metastasis in the direct environment of resection. In part, current treatment modalities such as chemo-and immunotherapy are hampered in their efficacy due to the specialized TME. This area is adequately equipped to withstand the cytotoxic attack of chemo- and immunotherapy. Therefore, we hypothesized that modulation of the TME could decrease these defense mechanisms, and increase susceptibility to tumor lysis.In this respect, we focused on Gal-1 as an ideal target to modulate the TME in the context of GBM. Gal-1 exerts multiple tumor promoting functions. From pre-clinical research, we have learned that Gal-1 is an important mediator for the proliferation and migration of tumor cells, moreover Gal-1 could also promote angiogenesis in the TME, providing nutrients and oxygen for GBM to grow. Gal-1 also maintains the inherent defense mechanisms to chemo and immunotherapy. Gal-1 is crucial for the resistance mechanisms to TMZ by altering the EPR stress response. Moreover, and most important for our purposes, Gal-1 is also a crucial immune suppressor in the TME, which can induce apoptosis in activated T cells, and recruit Tregs. To target Gal-1 in the TME would be clinically most relevant if this could be performed via a non-invasive treatment modality. Therefore, we developed a nanoparticle complex that could deliver siGal-1 from the nasal cavity directly to the CNS, and even the TME. This nose-to-brain delivery bypasses systemic routes, with a higher (and more selective) local bioavailability in the CNS. The major pharmaceutical excipient in this nanoparticle complex consists of chitosan polymers. These polymers are highly interesting agents to promote nose-to-brain delivery due their muco-adhesive and epithelial barrier modulation properties. When applying these particles in vitro on GBM cells, a solid decrease of Gal-1 was noted, and the epithelial modulatory properties were confirmed. Furthermore, we observed a rapid transport from the nasal cavity to the brain upon intranasal administration of a highly-concentrated chitosan nanoparticle siGal-1 suspension and we could even observe the sequence-specific cleavage of Gal-1 mRNA, and a decrease of Gal-1 in the TME. This Gal-1 reduction could modulate the TME from immune suppression to immune activation, as demonstrated by decrease in suppressor cells, and increased stage of activation in rejective immune cells. Moreover, due to decreased Gal-1, also angiogenesis was alleviated, and a reduced size in vasculature was observed, mimicking a morphological vessel normalisation. Reversing the immune and vascular contexture of the TME by Gal-1 reduction seemed a prerequisite to increase the efficacy of TMZ, DC vaccination and PD-1 blocking. In combination experiments, we noticed that siGal-1 on top of these treatments, could further increase the efficiency of chemo and immunotherapy. The findings presented in this thesis can serve as a proof of concept for the feasibility to modulate and re-orchestrate the TME of GBM via intranasal administration. The intranasal administration of siGal-1 could represent a valuable clinically translational treatment to increase the efficiency of chemo- and immunotherapy for GBM patients. In our research facilities, a phase 0 as a first-in-human trial is actively pursued. / Doctorat en Sciences biomédicales et pharmaceutiques (Pharmacie) / info:eu-repo/semantics/nonPublished

Sciences biomédicales

Sciences pharmaceutiques

glioblastoma

siRNA

galectin-1

chitosan nanoparticles

nose-to-brain

The Protective Function of Galectin-9 in Liver Ischemia and Reperfusion Injury in Mice / マウス肝虚血再灌流障害におけるガレクチン-9の保護効果

Hirao, Hirofumi

23 March 2017

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20251号 / 医博第4210号 / 新制||医||1020(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 妹尾 浩, 教授 湊谷 謙司, 教授 江藤 浩之 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

galectin-9

ischemia reperfusion injury

liver

T-cell immunoglobulin and mucin domain 3

490

Galectin-1: Development of a Novel Protein Therapy for LGMD2B

Vallecillo Munguia, Mary Lorena

10 December 2021

Muscular dystrophies are a heterogeneous group of genetic diseases that involve mutations in genes leading to progressive muscular weakness. Limb-Girdle Muscular Dystrophy 2B (LGMD2B) is a subset of muscular dystrophy caused by mutations in the DYSF gene, which encodes for dysferlin protein and has an incidence of 1/100,000-1/200,000 people, or 1/300 people of Libyan Jewish descent. Since there is no effective treatment that can cure or reverse effects of LGMD2B once diagnosed, our goal is to investigate and develop a protein therapy that mitigates effects of this disease in patients. Galectin-1 (Gal-1) is a small, soluble 14.5 kDa protein with a carbohydrate recognition domain capable of stabilizing the sarcolemma. The exact role that Gal-1 plays in myogenic cells is not fully understood, however, it is known that Gal-1 possesses anti-inflammatory properties and increases the terminal differentiation of committed myogenic cells. Our hypothesis is that Gal-1 treatment increases myogenic potential, improves membrane repair capability, and modulates the immune response in models of LGMD2B by stabilizing muscle integrity, leading to decreased disease manifestation. To test this hypothesis and assess the effect of Gal-1 treatment on myogenesis, anti-inflammatory modulation, and membrane repair, we designed, produced, and purified recombinant human galectin-1 (rHsGal-1) to be used in LGMD2B models. Our in vitro results indicate that after 2-3 days of treatment with 0.11μM rHsGal-1, A/J-/- myotubes enhance expression of myogenic late markers and increase in size and alignment. Additionally, after short-term treatment, rHsGal-1 improves membrane repair capability in a Ca2+ independent manner through an activated carbohydrate recognition domain (CRD) in in vitro and in vivo models of LGMD2B. We give evidence that rHsGal-1 upregulates anti-inflammatory cytokines, increases functional activity, and modulates the canonical NF-κB inflammatory pathway in dysferlin-deficient models by decreasing expression of TAK-1 and the p65 and p50 subunits in vitro and short-term in vivo treatment. Similar effects of the rHsGal-1 treatment were observed in patient-derived dysferlin-deficient human myotubes. Exploratory results show a potential decrease in muscle fat deposition in Bla/J mice. Furthermore, Gal-1 contributes to immune modulation by helping to initiate muscle regeneration by shifting M2 macrophage polarization. Together, our novel discoveries provide direct evidence that Gal-1 is a promising candidate to treat LGMD2B disease pathologies by improving expression of late-stage myogenic markers, improving membrane repair in vitro and short-term in vivo studies, promoting muscle regeneration through immune modulation, and reducing canonical NF-κB inflammation.

Muscular Dystrophy

LGMD2B

Galectin-1

Membrane Repair

NF-κB

inflammation

Macrophage polarization

Physical Sciences and Mathematics

Chemo and Radioresistance in Brain-Related Tumors

Perry, James David

02 September 2014

No description available.

Biomedical Research

Molecular Biology

Glioblastoma

Galectin-1

Radiation, Cilengitide

Treatment Resistance

Breast Cancer Brain Metastasis

Increased expression of programmed cell death ligand 1 and galectin 9 in transplant recipients who achieved tolerance after immunosuppression withdrawal / 免疫抑制剤中止後免疫寛容を達成した肝移植後レシピエントにおけるprogrammed cell death ligand 1とgalectin 9の高発現

NGUYEN, HAI NAM

23 March 2022

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23762号 / 医博第4808号 / 新制||医||1056(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 生田 宏一, 教授 川口 義弥, 教授 上野 英樹 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Programmed cell death ligand 1

Galectin 9

Foxp3

Tolerance

Liver transplantion

490

Bases moléculaires de l'activation du recepteur pre-B : de l'analyse structurale des interactions au décryptage du glycome. / Molecular Basis of the activation of pre-B Cell Rerceptor (pre-BCR)

Bonzi, Jeremy

20 February 2014

Le stade pre-B représente un point de contrôle crucial du développement des lymphocytes B dans la moelle osseuse. A ce stade, il y aura formation d'un récepteur intermédiaire nommé pre-BCR. Le pre-BCR est constitué de deux chaines lourdes Igµ et de deux pseudo-chaines légères (SLCs). Chaque SLC est constituée des protéines λ5 et VpreB, qui possèdent des régions « uniques » à leur extrémité N et C-terminale, respectivement. Ces régions uniques sont cruciales pour les fonctions du récepteur. La première partie de mes travaux sur l'étude du domaine λ5-UR nous a permis de proposer un modèle original d'assemblage du pre-BCR et d'apporter les bases structurales du rôle de chaperonne intramoléculaire de λ5-UR. L'activation du récepteur est permis par la formation d'une synapse immunologique. Des interactions entre la galectine-1 et λ5-UR vont permettre la formation d'un treillis d'interactions. L'étude structurale du complexe GAL1/λ5-UR, réalisée dans la seconde partie de ma thèse, a permis de déterminer la structure du complexe. L'interaction GAL1/λ5-UR engendre une modification d'affinité de GAL1 pour le lactose. Ce résultat suggère que l'interaction entre le pre-BCR et la galectine-1 peut influencer l'équilibre des interactions au niveau de la lattice en modulant l'affinité de la galectine-1 pour certains glycans. Dans la troisième partie de mon travail de thèse, des approches de glycomique fonctionnelle et structurale nous a permis l'élaboration d'un mécanisme de formation-dissolution de la synapse pre-B basés sur une modification d'affinité de GAL1 pour certains carbohydrates en présence de λ5-UR. / The pre-B stage represents a critical checkpoint in the development of B cells in the bone marrow. At this stage , there will be formation of a receptor intermediate called pre-BCR . The pre -BCR is composed of two heavy chains Igμ and two surrogate light chains ( SLCs ) . Each SLC consists of two proteins: λ5 and VpreB , which have "unique region" to their N-terminus and C -terminus, respectively. These unique regions are crucial for the functions of the receptor. The first part of my work on the domain λ5-UR has allowed us to propose an original model for assembling the pre -BCR and provide the structural basis of the role of intramolecular chaperone of λ5-UR. Receptor activation is allowed by the formation of an immunological synapse. Interactions between galectin-1 and λ5-UR will allow the formation of a lattice interactions. The structural study of complex GAL1/λ5-UR , conducted in the second part of my thesis, has allowed to determine the structure of the complex. These interactions GAL1/λ5-UR generate a modification of affinity of GAL1 for lactose. This result suggests that the interaction between the pre-BCR and galectin-1 may affect the balance of interactions at the lattice by modulating the affinity for galectin-1 for some glycans. In the third part of my thesis, approaches to structural and functional glycomics has allowed us to develop a mechanism of formation-dissolution of the synapse pre-B based on a modified affinity of GAL1 for certain carbohydrates in presence of λ5-UR.

Galectine

Région unique

Pre-BCR

Pseudo-Chaine légère

Lattice

Glycomique

Galectin

Unique region

Pre-BCR

Surrogate light chain

Lattice

Glycomic

"Expressão imunoistoquímica da proteína galectina-3 em carcinoma adenóide cístico e adenocarcinoma polimorfo de baixo grau de malignidade de glândulas salivares" / Galectin-3 immunoprofile in adenoid cystic carcinoma and polymorphous low-grade adenocarcinoma of salivary glands

Ferrazzo, Kivia Linhares

04 July 2006

O carcinoma adenóide cístico e o adenocarcinoma polimorfo de baixo grau de malignidade são neoplasias malignas das glândulas salivares que apresentam semelhança nos padrões histológicos, porém com comportamento clínico, tratamento e prognóstico completamente diferentes. A galectina-3 é uma proteína multifuncional da família das lectinas que está envolvida em vários fenômenos biológicos como crescimento celular, adesão celular, diferenciação celular e apoptose. Além disso, tem sido estudada como um marcador de invasão tumoral e metástase. O objetivo deste trabalho foi estudar qualitativamente a expressão imunoistoquímica da galectina-3 em 14 casos de carcinoma adenóide cístico (2 do subtipo tubular, 4 do subtipo sólido e 8 do subtipo cribriforme) e em 12 casos de adenocarcinoma polimorfo de baixo grau de malignidade com padrões histológicos variados, incluindo os padrões lobular, tubular e cribriforme. Espécimes de glândula salivar normal foram também incluídos na amostra. Nas glândulas salivares normais houve forte marcação da galectina-3 no núcleo e no citoplasma das células luminais dos ductos. Nos carcinomas adenóides císticos houve uma maior marcação da galectina-3 no subtipo tubular, localizada apenas nas células luminais das estruturas tubulares. Nos subtipos sólido e cribriforme a marcação foi menor, mas sempre localizada nas células que circundavam espaços luminais. Em todos os casos de carcinomas adenóides císticos estudados a marcação foi predominantemente nuclear. Nos adenocarcinomas polimorfos de baixo grau de malignidade a marcação da galectina-3 foi predominantemente citoplasmática em praticamente todas as células neoplásicas. Diante disso podemos sugerir que, nas neoplasias estudadas, a expressão da galectina-3 parece estar mais relacionada à diferenciação celular do que à progressão tumoral e ao prognóstico. / Adenoid cystic carcinoma and polymorphous low-grade adenocarcinoma are malignant neoplasms of salivary glands which are similar in histologic patterns but very different in clinical behavior, treatment and prognosis. Galectin-3 is a multifunctional protein of a growing family of beta-galactoside-binding animal lectins which is implicated in a variety of biological events such as tumor cell adhesion, proliferation, differentiation and angiogenesis. This protein was found to be implicated in cellular transformation, and a correlation between its expression and cancer progression and metastasis has been described. The aim of this study was to determine the galectin-3 immunoprofile in 14 cases of adenoid cystic carcinoma (2 cases of tubular subtype, 4 cases of solid subtype and 8 cases of cribriform subtype) and in 12 cases of polymorphous low-grade adenocarcinoma with different histologic patterns, included lobular, tubular and cribriform. Moreover, slides of normal salivary glands were included. In normal salivary glands there were strong nuclei and cytoplasmic staining for galectin-3 in ductal luminal cells. Adenoid cystic carcinomas showed specific staining in luminal cells mainly in the nuclei. In the tubular subtype of adenoid cystic carcinoma galectin-3 was strong in the luminal cells of the ductiform structures. The cribriform and solid subtypes showed a few positive cells for galectin-3 only in the luminal cells of small ducts presenting in the cribriform structures and in solid nests respectly. In the cases of polymorphous low-grade adenocarcinoma, independent of the histologic architecture, all tumor cells revealed a positive cytoplasmic reaction with the galectin-3 antibody. Galectin-3 expression seems to be related to cell differentiation more than tumor progression and prognosis in the neoplasms studied.

Adenoid cystic carcinoma

Carcinoma adenóide cístico

Galectin 3

Galectina 3

Polymorphous low-grade adenocarcinoma

Análise comparativa entre galectinas-1 humana e de camundongo sob os aspectos biológico e molecular / Comparative analysis of the biochemistry and biology of human and mouse galectin

Trabuco, Amanda Cristina

12 August 2013

A galectina-1 (Gal-1) é uma lectina homodimérica multifuncional capaz de reconhecer e se ligar a beta-galactosídeos por meio de um domínio denominado carbohydrate recognition domain (CRD). A Gal-1 humana (Gal-1h) e a Gal-1 de camundongo (Gal-1c) mantêm 88,15% de homologia e, apesar de não existirem mutações em aminoácidos-chave do CRD, há substituições próximas a esses resíduos. Considerando as implicações dessas diferenças em estrutura e função, e que é comum a utilização de modelos murinos para estudar a função Gal-1, o presente trabalho objetiva analisar comparativamente a Gal-1c e a Gal-1h por meio de ensaios de cristalização e determinação estrutural da Gal-1c, além da avaliação comparativa da atividade lectínica da Gal-1h e da Gal-1c por glycan array e hemaglutinação. Também foi avaliada a capacidade de ambas as Gal-1 em induzir a exposição de fosfatidilserina (FS) em neutrófilos ativados provenientes de medula de camundongos normais ou deficientes de ?-2 integrina (Mac-1), de modo a investigar se a interação Gal-1/Mac-1 estaria envolvida nesse processo. Preparações homogêneas e ativas de Gal-1c e Gal-1h foram utilizadas nos ensaios. Os cristais de Gal-1c foram obtidos em 20% de polietilenoglicol 3350 e 0,2 M de fluoreto de amônio. Os dados de difração de raios X foram coletados e processados, obtendo-se uma estrutura com resolução de 2,4 Å. Observou-se que substituições de aminoácidos entre a Gal-1c e a Gal-1h estão localizadas em regiões expostas ao solvente, próximas do CRD e distantes da interface de dimerização. A análise comparativa entre Gal-1c e Gal-1h mostrou que estas substituições conferem a Gal-1c um caráter mais polar, com consequente aumento da distribuição de volume molecular. Nos ensaios de hemaglutinação, pode-se observar que é necessária uma concentração 2 vezes maior de Gal-1c para aglutinar eritrócitos humanos, de carneiro e de coelho na mesma proporção que a Gal-1h. Por meio do glycan array, pode-se determinar o perfil de ligação a glicanas de ambas as Gal-1. As duas Gal-1 apresentam afinidade por glicanas ramificadas contendo galactose terminal, e a Gal-1h apresentou maior intensidade de ligação às glicanas quando comparada à Gal-1c. Preparações de Gal-1c e Gal-1h induzem níveis semelhantes de exposição de FS na superfície de neutrófilos deficientes ou não de Mac-1, sugerindo que a interação Gal-1/Mac-1 não esteja envolvida no processo de exposição de FS na superfície de neutrófilos ativados. Assim, a diferença sequencial entre a Gal-1c e a Gal-1h é capaz de gerar diferenças estruturais consideráveis que implicam no reconhecimento diferencial de glicanas, o que, entretanto, não se reflete na capacidade de indução de FS na superfície de neutrófilos ativados. Além disso, a interação Gal-1/Mac-1 parece não participar desse processo, o que pode indicar que o papel da Gal-1 no turnover de neutrófilos, via reconhecimento fagocítico, seja um processo complexo e independente dessa interação. / Galectin-1 (Gal-1) is a homodimeric and multifunctional lectin that recognizes and binds to beta-galactoside by a carbohydrate recognition domain (CRD). Human Gal-1 (hGal-1) and mouse Gal-1 (mGal-1) are 88.15% identical, and although there are no mutations in key amino acids within the CRD, there are differences in the amino acids sequence near the CRD. Given the potential of these differences to alter overall structure and function, and the common utilization of murine models to study Gal-1 function, we sought to directly compare key biochemical features of hGal and mGal-1. Thus, we performed crystallization and structure determination assays of mGal-1, and determined the carbohydrate binding specificy of mGal-1 and hGal-1 using a glycan array and using hemagglutination assay. We also evaluated the ability of both Gal-1 to induce exposure of phosphatidylserine (PS) in activated neutrophils from the bone marrow of normal or ?-2 integrin (Mac-1) deficient mice, in order to investigate the involvement of Gal-1/Mac-1 interaction in this process. To accomplish this, homogeneous and active preparations of hGal-1 and mGal-1 were used in the study. mGal-1 crystals were obtained in 20% polyethylene glycol 3350 and 0.2 M ammonium fluoride. Data from X-ray diffraction were collected and processed, yielding a structure with a final resolution of 2.4 Å. The amino acid substitutions found between mGal-1 and hGaI-1 are detected on the solvent-exposed surfaces where the CRDs are located and not on the proteins dimerization surfaces. A comparative structural analysis between mGal-1 and hGal-1 shows that these amino acid substitutions confer to mGal-1 a greater number of ionizable residues, polar character, appearance of the acid regions clustered, and a slight increase of volume distribution. In hemagglutination assays, twice the concentration of mGal-1 was required to cause equivalent agglutination of human, sheep or rabbit erythrocytes as hGal-1. Glycan array analysis demonstrated that both galectins have affinity for branched glycans containing terminal galactose residues. However, hGal-1 appeared to display higher levels of binding that mGal-1. Preparations of mGal-1 and hGal-1 induced similar levels of PS exposure on normal or Mac-1 deficient neutrophils, suggesting that the interaction Gal-1/Mac-1 is not involved in this process. Thus, hGal-1 and mGal-1 appear to possess considerable differences in glycan recognition that likely reflects subtle difference in amino acid sequence. Furthermore, the interaction Gal-1/Mac-1 do not appear to participate in this PS exposure process, which suggest that other Gal-1 receptors are likely important in this process.

cristalografia

crystallography

fosfatidilserina.

galectin-1

galectina-1

glycan array

glycan array

hemagglutination

hemaglutinação

Mac-1

Mac-1

phosphatidylserine.