The synthesis and biological evaluation of novel N-acetylhexosaminidase inhibitors

Crabtree, Elizabeth Victoria

January 2011

Iminosugars are known to behave as carbohydrate mimics in biological systems by virtue of their similar structures. However as the ring nitrogen prevents metabolism it means that iminosugars have the potential to become inhibitors of these systems. It is known, for example, that iminosugars can behave as mimics in the hydrolysis mechanism. This leads to possible medicinal applications of iminosugars. One such case is lysosomal storage disorders which arise as a result of a genetic defect which causes missense mutations coding for the N-acetylhexosaminidase enzymatic protein. N-Acetylhexosaminidases are a sub-member of the class of glycosidase enzymes. They are responsible for the cleavage of N-acetylhexosamine residues from glycoconjugates in the lysosome. Mutations in the gene coding for this protein lead to a deficiency in the enzymatic activity resulting in accumulation of unhydrolysed substrate in the lysosome. Lysosomal storage disorders have a phenotype of poor motor development and neurological problems. The infantile form usually leads to death before the age of five. An iminosugar mimic could give rise to a possible treatment for lysosomal storage disorders by acting as a molecular chaperone during protein folding, promoting correct folding by its intrinsic affinity for the native fold of the enzyme. Likewise in the treatment of cancer, the inhibitory ability of iminosugars has potential applications. In cancer, extracellular hydrolysis occurs which favours cancer cell survival. Macrophages, which attack and eliminate cancer cells, can be activated by macrophage activating factor (MAF) which displays an α-N-acetylgalactosamine residue that appears essential for the activation cascade. Cancer cells secrete an α-N-acetylgalactosaminidase enzyme that acts to decrease the potency of MAF, thus promoting cancer cell survival. Inhibition of cancer cell α-N-acetylgalactosaminidase may restore macrophage activation and generate potential therapeutics. Chapter 1 of this thesis contains extended discussion of the aforementioned, and related, diseases and the therapeutic applications of iminosugars. Some historically and biologically important iminosugars are described along with some current iminosugar drugs. Chapter 2 describes the synthetic strategies explored in an attempt to synthesise all the members of the 2-acetamido pyrrolidine iminosugars. An overview of the compounds synthesised towards this end by a past group member is given along with the work performed as part of this thesis to complete this goal. Both enantiomers with arabino- and ribo- stereochemistry and D-lyxo- were previously synthesised. The syntheses of both enantiomers with xylo- stereochemistry along with the L-lyxo- compound were completed as part of this thesis, from either D- or L-glucuronolactone and D-ribose, respectively. Chapter 3 details the synthetic strategy adopted to synthesise the enantiomer of D-DNJNAc, the first potent α-N-acetylgalactosaminidase inhibitor to be found. The synthesis towards another piperidine iminosugar, 6-deoxy DGJNAc, is presented in the second half of this chapter, along with two related compounds.

612.0158

Rare monosaccharides and biologically active iminosugars from carbohydrate chirons

Best, Daniel

January 2011

Iminosugars are polyhydroxylated alkaloids, and can be viewed as sugar analogues in which the endocyclic oxygen atom has been replaced with nitrogen. These compounds are highly medically relevant and their biological activity is largely due to their inhibition of glycosidases. Several examples of the iminosugar class are currently marketed as drugs, and many more are in earlier stages of development for a variety of diseases and disorders. The most fruitful approaches to the chemical synthesis of iminosugars have utilised carbohydrate starting materials as optically pure chiral building blocks, or chirons. Most of the monosaccharides are not readily available, but the relatively few naturally abundant cheap sugars have been exploited as chirons for over a century. The availability of the rare sugars is growing with the development of a new biotechnological approach to their synthesis, known as Izumoring. This thesis is primarily concerned with the chemical synthesis of iminosugars from carbohydrate starting materials. The synthesis of unnaturally functionalised sugar polyols and their suitability as substrates for the Izumoring process is also discussed. Chapter 1 provides a brief general overview of the history, natural occurrence and therapeutic application of iminosugars. General strategies for their synthesis from carbohydrate chirons are discussed. Chapter 2 concerns divergent syntheses of several iminosugar targets from both enantiomers of glucuronolactone and their biological evaluation. A new scaleable synthesis of the natural product 1-deoxynojirimycin is presented that has since been adopted for commercial purposes, as well as an efficient strategy for the synthesis of both enantiomers of 2,5-dideoxy-2,5-imino- mannitol and their novel amino acid analogues. Access to hexosaminidase inhibiting acetamido- substituted piperidines is presented, including 2-acetamido-1,5-imino-1,2,5-trideoxy-D- galactitol, which has been found to be one of the few known potent and specific inhibitors of α- N-acetyl-galactosaminidase. This inhibitory profile may allow the compound’s use for further investigation of a strategy for cancer treatment. Chapter 3 concerns the synthesis of carbon branched pyrrolidines and their biological evaluation. A novel and highly potent α-glycosidase inhibitor has been discovered, synthesised by a strategy that utilises the benzhydryl ether as key protecting group. A mild method for the introduction of this protecting group has been shown to be general to a range of sterically congested and/or acid/base sensitive carbohydrate lactones. Chapter 4 concerns the synthesis of deoxygenated and fluorinated sugar alcohols and their successful biotechnological transformation into ketoses by the Izumoring process. Publications arising from this work are included in the Appendix.

547.7

Etude de rôle du récepteur Farnesoid X Receptor (FXR) dans le contrôle de l’utilisation du glucose / Study of the role of Farnesoid X Receptor (FXR) on the control of glucose utilization

Huaman Samanez, Carolina

07 February 2012

La dérégulation du métabolisme glucidique conduisant au développement d’une hyperglycémie est classiquement associée aux maladies métaboliques, telles que le diabète de type 2 et l’obésité. Le foie est un organe clé dans le contrôle de l’homéostasie glucidique. Ainsi, lors d’un état post-prandial (après un repas), il utilise le glucose pour produire de l’énergie par la voie de la glycolyse, mais surtout stocke l’excès de glucose sous forme de glycogène par la voie de synthèse du glycogène et l’excès d’énergie sous forme d’acides gras par la voie de la lipogenèse. Ces voies sont sous le contrôle des hormones insuline et glucagon qui, en fonction des changements nutritionnels, régulent respectivement l’utilisation (glycolyse) et la production (néoglucogenèse) de glucose en induisant l’expression des enzymes de ces voies métaboliques. Plus récemment, il a été montré que les voies de la glycolyse et de la lipogenèse sont également régulées par le glucose qui active le facteur de transcription ChREBP (Carbohydrate Response Element Binding Protein) et induit de ce fait l’expression des gènes de la glycolyse, tels que la LPK (Liver Pyruvate Kinase), et de la lipogenèse, tels que FAS (Fatty Acid Synthase) et ACC1 (Acetyl-CoenzymeA Carboxylase 1). Le récepteur nucléaire Farnesoid X Receptor (FXR), un facteur de transcription activé par des ligands, en plus de son rôle très important dans la régulation des acides biliaires et des lipides, contrôle aussi le métabolisme glucidique dans le foie. Ainsi, FXR inhibe l’expression des gènes des voies de la glycolyse et de la lipogenèse, probablement en interférant avec le facteur de transcription ChREBP, comme le propose une étude récente. Les objectifs de ma thèse ont été de caractériser deux lignées hépatocytaires humaines IHH (Immortalized Human Hepatocytes) et HepaRG d’un point de vue métabolique et d’étudier les mécanismes moléculaires d’interférence du récepteur nucléaire FXR avec l’activité du facteur ChREBP dans ces deux lignées. / Glucose metabolism dysreglation leads to the developpment of hyperglaecemia and is classically associated with metabolic diseases such as Type II diabetes or obesity. The liver is a key organ in the control of glucose homeostasis. Indeed, at a post-prandial state (after a meal), it utilizes glucose to produce energy by the glycolysis pathway, but mostly stores the glucose excess as glycogen by the glycogenesis pathway and the energie excess as fatty acids by the lipogenesis pathway. These pathways are controlled by insulin and glucagon hormones which, in response ton nutritional changes, regulate respectively the utilization (glycolysis) and the production (gluconeogenesis) of glucose by inducing the expression of enzymes involved in these pathways. More recently, it has been shown that glycolyisis and lipogenesis are also regulated by glucose who activates the transcription factor ChREBP (Carbohydrate Response Element Binding Protein) and therefore induces the expression of glycolytic genes, such as LPK (Liver Pyruvate Kinase) and lipogenic genes, such as FAS (Fatty Acid Synthase) and ACC1 (Acetyl-CoenzymeA Carboxylase 1). Nuclear receptor Farnesoid X Receptor, a transcription factor activated by ligands, besides its role in the regulation of bile acids and lipids, also controls the glucose metabolism in liver. Thus, FXR inhibit the expression of genes involved in glycolysis and lipogenesis, probably by interfering with the transcription factor ChREBP, as it has been suggested by a recent study The objectifs of my thesis were to characterize two human hepatocyte cell lines IHH ( (Immortalized Human Hepatocytes) and HepaRG from a metabolic point of view and to study the molecular mecanisms involved in the interference of FXR with the activity of ChREBP in these two cell lines.

FXR

Farnesoid X Receptor (FXR)

Vliv těžkých kovů na sacharidový metabolizmus rostlin / The effect of heavy metals on plant carbohydrate metabolism

Kofroňová, Monika

January 2013

Arsenic is an element which belongs to metaloids. Contamination with arsenic is a problem all over the world. Basically it is a part of Earth's crust, but with anthropogenic activities it could overspread into soil, water and air in large scale a thus it could mean health hazard. Fytoremediation is kind of environment decontamination, which is quite effective and cheap as well. Publications about arsenic and its influence on plant metabolism are mostly focused on important crop plants like rice. Rice is mostly used for experiments and questions on anatomical and morphological changes are widely being solved by these experiments, but it has only insignificant relevance for fytoremediation. There are only few publications about arsenic influence on carbohydrate metabolism, thus little is known about this problem. That is why I have decided to study this topic more deeply and get more information about carbohydrate metabolic changes under influence of arsenic and partly also under influence of mercury, because information about influence of mercury are completely lacking. My experimental material includes tobacco plant, tobacco tissue cultures and horseradish hairy roots cultures. Accumulation of starch and soluble carbohydrate spectrum and content was determined by HPLC. Furthermore arsenic influence...

Výživa při a po dlouhodobém výkonu u hoby běžců / Hobby runners' nutrition during and after a long-distance performance

Kaucká, Petra

January 2016

Title: Hobby runners' nutrition during and after a long-distance performance Objectives: The main aim of the thesis was to find out hobby runners' nutritional strategies during and after long-distance performance. Then to examine their diet from qualitative and quantitative view of points. By labratory testing find out maximal functional parameters and body composition. Use of mouth rinse of carbohydrate solution during 60 minutes running performance. Methods: There were used biomedical measurements as body composition, bioelectrical impedance, labotory spiroergometric measuring by maximal stress testing. Field trials using sporttesters and mouth rinse of carbohydrate solution during 60 min running performance. Also during the 60 min running performance there was use of Borg's RPE scale to evaluate subjective perceived exertion. Another methods were interview with open questions and online survey. Results: Hobby runners'nutrition during and after long- distance performance is not in agreement with sports nutrition requirements, especially with requirements to maximalize the performance. Nutritional strategies don't meet the conditions to optimalize body regeneration and fullfilling energy substrates. The positive effect of 8% carbohydrate solution mouth rinse on 60 min running performance was...

L’impression moléculaire pour la reconnaissance spécifique des glycannes sulfatés d’intérêt biologique / Application of molecular imprinting technology for the preparation and recognition of specific fragments of heparan sulfate biologically active.

Singabraya, Dominique

14 December 2010

Les glycosaminoglycannes (GAGs) sont des molécules polysaccharidiques polysulfatées intervenant dans des processus aussi variés que la prolifération, différenciation ou migration cellulaire, la coagulation sanguine ou l‟infection virale. Il est généralement admis qu‟une séquence particulière de GAG doit être associée à une fonction biologique spécifique. Les structures chimiques globales des GAGs sont connues. Cependant, contrairement au séquençage des gènes ou des protéines, la détermination de la séquence saccharidique exacte impliquée dans une fonction biologique particulière n‟est encore pas possible. Le séquençage « glycomique » constitue donc un enjeu majeur. L‟une des technologies les plus novatrices pour aborder ce problème de séquençage des GAGs semble être l‟impression moléculaire. En effet, elle permet d‟obtenir des polymères (MIPs pour Molecular Imprinted Polymer) spécifiquement imprimés par la forme structurale d‟une molécule cible.En nous appuyant sur des travaux antérieurs réalisés avec des modèles saccharidiques sulfatés simples, nous avons appliqué cette technologie à la reconnaissance de glycannes sulfatés complexes d‟intérêt biologique tels qu‟une héparine de bas poids moléculaire ou un mimétique ayant une activité anticoagulante. Il a été démontré une reconnaissance spécifique et sélective selon la molécule étudiée à l‟aide de MIPs spécialement conçus pour chaque GAG. De plus, nous avons obtenu des MIPs qui, en immobilisant temporairement un sucre, permettraient leur substitution de façon stéréospécifique. La détermination des conditions optimales de synthèse des MIPs s‟est avéré une étape nécessaire à l‟obtention d‟une bonne reconnaissance. Ces travaux ouvrent des perspectives d‟application de la technique d‟impression moléculaire à l‟analyse des séquences de GAGs d‟intérêt biologique / Glycosaminoglycans (GAGs) are polysulfated polysaccharide molecules involved in many biological processes such as cellular proliferation, differentiation or migration, blood clotting or viral infection. It is generally admitted that a particular GAG sequence is connected to a specific biological function. Depending on their composition in disaccharides, GAGs are classified into subfamilies whose overall chemical structures are known. Unlike gene or protein sequencing, determination of the exact saccharidic sequence involved in a particular biological function is not yet possible with the available technological tools. "Glycomics" is a real challenge nowadays. One of the most innovative technologies to achieve this goal seems to be the molecular imprinting. Indeed, it provides polymers (MIPs for Molecular Imprinted Polymer) imprinted by the structural form of a target molecule.Based on previous studies performed with simple sulfated saccharides, this technology has been applied to the recognition of complex sulfated glycans. MIPs were achieved demonstrating specific and selective recognition for a Low Molecular Weight Heparin or a synthetic anticoagulant mimetic. Other MIPs were able to temporally immobilize sugars which make them available for stereo-specific modifications. Screening of optimal synthesis conditions of MIPs appeared a necessary step to obtain a specific and selective recognition. These studies open further possibilities to analyze GAG sequences carrying biological functions by the molecular imprinting technology

Glycosaminoglycanes

Impression Moléculaire

Carbohydrates

Specificité

Reconnaissance

Sucres sulfatés

Glycosaminoglycan

Molecular Imprinting

Carbohydrate

Specificity

Recognition

Sulfated sugars

Structural and functional studies of interactions between [beta]-1,3-glucan and the N-terminal domains of [beta]-1,3-glucan recognition proteins involved in insect innate immunity

Dai, Huaien

January 1900

Doctor of Philosophy / Department of Biochemistry / Ramaswamy Krishnamoorthi / Insect [beta]-1,3-glucan recognition protein ([beta]GRP), a soluble receptor in the hemolymph, binds to the surfaces of bacteria and fungi and activates serine protease cascades that promote destruction of pathogens by means of melanization or expression of antimicrobial peptides. Delineation of mechanistic details of these processes may help develop strategies to control insect-borne diseases and economic losses. Multi-dimensional nuclear magnetic resonance (NMR) techniques were employed to solve the solution structure of the Indian meal moth (Plodia interpunctella) [beta]GRP N-terminal domain (N-[beta]GRP), which is sufficient to activate the prophenoloxidase (proPO) pathway resulting in melanin formation. This is the first determined three-dimensional structure of N-[beta]GRP, which adopts an immunoglobulin fold. Addition of laminarin, a [beta]-1,3 and [beta]-1,6 link-containing glucose polysaccharide (∼6 kDa) that activates the proPO pathway, to N-[beta]GRP results in the loss of NMR cross-peaks from the backbone [subscript]1[subscript]5N-[subscript]1H groups of the protein, suggesting the formation of a large complex. Analytical ultracentrifugation (AUC) studies of formation of the N-[beta]GRP:laminarin complex show that ligand binding induces self-association of the protein-carbohydrate complex into a macro structure, likely containing six protein and three laminarin molecules (∼102 kDa). The macro complex is quite stable, as it does not undergo dissociation upon dilution to submicromolar concentrations. The structural model thus derived from this study for the N-[beta]GRP:laminarin complex in solution differs from the one in which a single N-[beta]GRP molecule has been proposed to bind to a triple-helical form of laminarin on the basis of a X-ray crystal structure of the N-[beta]GRP:laminarihexaose complex. AUC studies and phenoloxidase activation measurements made with designed mutants of N-[beta]GRP indicate that electrostatic interactions between the ligand-bound protein molecules contribute to the stability of the N-[beta]GRP:laminarin complex and that a decreased stability results in a reduction of proPO activation. These novel findings suggest that ligand-induced self-association of the [beta]GRP:[beta]-1,3-glucan complex may form a platform on a microbial surface for recruitment of downstream proteases, as a means of amplification of the pathogen recognition signal. In the case of the homolog of GNBPA2 from Anopheles gambiae, the malaria-causing Plasmodium carrier, multiligand specificity was characterized, suggesting a functional diversity of the immunoglobulin domain structure.

Innate immunity

3-glucan

Carbohydrate-binding module

NMR

AUC

[beta]-13-glucan

Biochemistry (0487)

Biophysics (0786)

Fluorescence Resonance Energy Transfer (FRET) Based Sensors for Bioanalysis

Blagoi, Gabriela

08 May 2004

The objective of my PhD study was to develop and characterize new methods and sensors based on fluorescence resonance energy transfer (FRET) for bioanalysis. Chapter 3 describes the use of FRET between donor fluorophores and acceptor labeled murine macrophage cells. FRET microscopy was used to determine whether the donor molecules truly permeate through the cell membrane or only adsorb to the cell surface. This method was found to be partially successful since the donor red tail fluorescence overlapped with the sensitized acceptor fluorescence and led to false reading of FRET. We found that is easier to monitor delivery of acceptor molecules into donor-labeled cells. Using donor labeled cells it was possible to determine whether the acceptor molecules were actually delivered into cells. However, a relatively high acceptor concentration in the hundreds of micromolar level was needed to obtain measurable FRET signals in the 3-D cellular system. The results underscored the need to reduce the dimensionality of FRET systems in order to increase the FRET efficiency between donor and acceptor molecules. Chapter 4 describes the development of FRET sensing lipobeads labeled with donors and their use to evaluate the interactions of acceptor molecules with the phospholipid membrane of FRET sensing lipobeads. The change in the dimensionality of the system in which FRET occurs, improved the sensitivity of our measurements by 3-folds compared to FRET measurements in solution. We concluded that a molecular recognition component had to be added to the sensing particles to further increase their selectivity and sensitivity. Chapter 5 describes the development of FRET trap sensing beads and their use for screening nonfluorescent carbohydrates and glycoproteins. The FRET sensing technique was based on binding between dextran molecules labeled with Texas Red (Dextran-TR) and polystyrene microparticles labeled with Fluorescein tagged Concanavalin A (FITC-ConA). It was found that carbohydrates and glycoproteins inhibit the binding between dextran-TR and FITC-ConA labeled particles. The inhibition effect was concentration dependent thus enabled screening carbohydrates and glycoproteins based on their inhibition potency. The dissertation critically evaluates the performance of FRET microscopy and FRET based sensors in delivery and screening applications.

FRET microscopy

FRET sensing lipobeads

FRET based sensors

Praktické aspekty vysokosacharidové diety ve vrcholovém sportu / Practical aspects of high-carbohydrate dieting in top sport

Jurková, Kateřina

January 2019

Topic: Practical aspects of high-carbohydrate dieting in top sport The topic of this thesis is sports nutrition. After a comprehensive summary of current scientific and generally accepted guidelines, the practical part is based on an example of the current state of sports nutrition in one concrete men's basketball team. Subsequently, the practical part combines the knowledge of theory and results of diet analysis of the current nutritional status in the team. The aim of the analytical part of the thesis was to find out the individual and subsequently average data of the monitored file through the registration of weekly eating diaries, both in terms of macro and micronutrients. These data were statistically processed using the program Sportvital-Nutrition (http://www.bonfit.cz/), whose database contains the most comperhensive information about the composition of individual foods and meals, allowing analysis of up to 30 nutritional parameters. The main aim of the application part of the thesis was to design and calculate a sample menu for seven whole days for top athletes based on predetermined and defined criteria based on theoretical background and analysis of collected eating diaries. These criteria were to follow the principles of healthy nutrition, i.e. primarily the variety, regularity and...

A atividade imunomoduladora de ArtinM sobre o curso da infecção por Cryptococcus gattii / The immunomodulatory activity of ArtinM on the course of Cryptococcus gattii infection

Brito, Patrícia Kellen Martins Oliveira

10 October 2018

As infecções fúngicas invasivas são um problema global em saúde pública que acometem milhões de vidas anualmente. Entre os principais gêneros causadores dessas doenças, a espécie Cryptococcus gattii destaca-se por acometer indivíduos imunocompetentes e imunossuprimidos. Esse patógeno atua no bloqueio da diferenciação das células T helper (Th) 1 (Th1) e 17 (Th17) através da atenuação da resposta pró-inflamatória no tecido pulmonar. Em vista da capacidade imunomoduladora de ArtinM em induzir uma resposta imunológica Th1 e Th17 através da indução da produção de IL-12 por células apresentadoras de antígenos (APCs), e pelo efeito da lectina em células T CD4+, esse efeito imunomodulador de ArtinM promoveu o controle da infecção por P. brasiliensis e C. albicans. Dessa forma, investigamos os efeitos da administração profilática ou terapêutica de ArtinM no controle da infecção experimental por C. gattii. Constatamos que a infecção por C. gattii rapidamente progride no tecido pulmonar, assim como há uma disseminação completa para o coração, fígado, rim, baço, cérebro e sangue após 21 dias de infeção. Na análise do pulmão, o perfil citocínico apresentou baixos níveis de citocinas pró-inflamatórias, e observamos um aumento na expressão relativa dos marcadores de polarização para o perfil M2 (Arginase-1 e YM-1), em todo período analisado. Visto a capacidade reguladora do C. gattii sobre o sistema imunitário do hospedeiro, avaliamos o efeito da administração profilática de ArtinM sobre o curso dessa infecção. Ao longo de 42 dias de infecção, o grupo tratado com ArtinM apresentou uma redução da carga fúngica pulmonar nos dias 28 e 35 pós-infecção, e os níveis de IFN-?, IL-17 e TNF-? aumentaram significativamente no grupo ArtinM. Esse efeito imunomodulador da administração profilática de ArtinM sobre o modelo de infecção experimental por C. gattii levou-nos a avaliar o efeito da administração terapêutica de ArtinM no curso dessa infecção. Essa nova proposta de aplicação de ArtinM resultou na redução da carga fúngica pulmonar de C. gattii após 21 dias de infecção, comparado com o grupo controle. A administração terapêutica de ArtinM foi capaz de elevar o número absoluto de neutrófilos e linfócitos no sangue periférico dos animais infectados, porém os níveis de citocinas não diferiram entre os grupos ArtinM e controle. Além disso, o grupo tratado com ArtinM apresentou menor frequência de células T CD4+ no baço. Diante do efeito imunomodulador a administração profilática ou terapêutica de ArtinM que promoveu um controle parcial da infecção por C. gattii, partimos para a associação desse agente imunomodulador com o antifúngicoR e s u m o | viii Fluconazol. Verificamos que os animais tratados com ArtinM em associação com fluconazol também apresentaram uma redução da carga fúngica pulmonar em comparação ao grupo controle, indicando que ArtinM é passível de ser associada com a terapia convencional antifúngica. Portanto, nossos dados evidenciaram que a atividade imunomodulatória de ArtinM, através da administração profilática ou terapêutica, foi evidenciada no curso da infecção por C. gattii e favoreceu a imunidade do hospedeiro promovendo uma redução parcial da carga fúngica pulmonar / Invasive fungal diseases are a global public health problem, that affects millions of individuals each year. Among the species that cause these diseases, Cryptococcus gattii is a major because affects immunosuppressed and immunocompetent individuals. C. gattii regulates the differentiation of helper (Th) T cells 1 (Th1) and 17 (Th17) by attenuating the proinflammatory response in the lungs. We know that the immunomodulatory capacity of ArtinM to induce the Th1 and Th17 immune response through IL-12 production by antigen presenting cells (APCs) and the CD4+ T cells activation by direct effect of ArtinM, these activities of ArtinM promoted the control of P. brasiliensis and C. albicans infection. Thus, we investigated the effects of prophylactic or therapeutic administration of ArtinM in the control of C. gattii infection. We found that C. gattii infection rapidly increase in the lungs and disseminate to the heart, liver, kidney, spleen, brain and blood after 21 days of infection. In the lung analysis, the cytokine profile showed low levels of proinflammatory cytokines and we observed an increase in the relative expression of the polarization markers for the M2 macrophages (Arginase-1 and YM-1) for all period. Given the regulatory ability of C. gattii on the host immune response, we evaluated the effect of prophylactic administration of ArtinM on the course of C. gattii infection. During 42 days of infection, the ArtinM-treated group had a reduction in the pulmonary fungal burden on days 28 and 35 post-infection, and levels of IFN-?, IL-17 and TNF-? were significantly increased in the ArtinM group. This immunomodulatory effect of prophylactic administration of ArtinM on the C. gattii infection led us to evaluate the effect of the therapeutic administration of ArtinM on the course of this infection. This new strategy for the ArtinM administration promoted a reduction in the lung fungal burden of C. gattii after 21 days of infection compared to control group. Therapeutic administration of ArtinM was able to increase the absolute number of neutrophils and lymphocytes in the peripheral blood of infected mice, but the cytokine levels did not differ between the ArtinM and control groups. In addition, the ArtinM-treated group showed decrease of the CD4+ T cell frequency in the spleen. Considering the immunomodulatory effect, the prophylactic or therapeutic administration of ArtinM promoted a partial control of C. gattii infection, and instigate us to investigate the association of ArtinM and Fluconazole. We found that the treatment with ArtinM in combination with fluconazole also promoted a reduction in the pulmonary fungal burden, which suggested that ArtinM works well inA b s t r a c t | xi association with antifungal drugs. Therefore, our data showed that the immunomodulatory activity of ArtinM, via prophylactic or therapeutic administration, was evidenced in the course of C. gattii infection and contributed the host immune response to reduce the lung fungal burden

ArtinM

ArtinM

Carbohydrate recognition

Cryptococcus gatti

Cryptococcus gattii

Immunomodulation

Imunomodulação

Lectin

Lectinas

Reconhecimento de carboidrato