Ovarian cancer is associated with changes in glycosylation in both acute-phase proteins and IgG

Ovarian cancer is the fourth most common cancer in women in the Western world. In a pilot scale study, we highlight changes in the total serum glycome of patients with advanced ovarian cancer that might shed insight into disease pathogenesis. These changes include increases in levels of core fucosylated, agalactosyl biantennary glycans (FA2) and sialyl Lewis x (SLe(x)). To investigate further which proteins contribute to these alterations, we developed technology to analyze simultaneously the glycosylation of protein glycoforms contained in single spots excised from a 2D gel (<1 ng protein). The acute-phase proteins, haptoglobin, alpha1-acid glycoprotein, and alpha1-antichymotrypsin from patients contained elevated levels of subsets of glycoforms containing SLe(x). We also established that IgG heavy chains from patients contained twice the level of FA2 compared with healthy controls. Serum CA125 is the only biomarker that is used routinely, and there is a need for complementary markers that will improve both sensitivity and specificity. There was some preliminary indication that combinations of changes in the serum glycome might improve the separation of ovarian cancer and benign tumors; however, a larger study using data receiver operating characteristic curves will be required to draw any firm conclusions.     

Identification of unique glycoisoforms of vitamin D-binding protein and haptoglobin as biomarker candidates in hepatocarcinogenesis of STAM mice

Hepatocellular carcinoma (HCC) is the major subtype of primary liver cancer, and is typically diagnosed late in its course. Considering the limitations and the reluctance of patients to undergo a liver biopsy, a reliable, noninvasive diagnostic marker that predicts and assesses the treatment and prognosis of HCC is needed. With recent technological advances of mass spectrometry, glycomics is gathering momentum and holds substantial potential to discover new glycan markers in cancer research. Here, to discover specific glycan markers for the early diagnosis of HCC, we analyzed the glycan profiles of gel-separated serum proteins of progressive liver disease model mice. By focused protein glycomics of 12 gel-separated glycoproteins using sera from the mouse models, we revealed the entire profile of glycans in each major serum protein. We found that the levels of trisialylated triantennary glycans of haptoglobin and vitamin D-binding protein increased significantly as the disease progressed, while the alteration in these protein levels were modest. Furthermore, these glycan increases were not observed in age-matched control mice. In conclusion, our approach has identified specific glycan marker candidates for the early diagnosis of HCC.     

A strategy to reveal potential glycan markers from serum glycoproteins associated with breast cancer progression

Aberrant glycosylation on glycoproteins that are either presented on the surface or secreted by cancer cells is a potential source of disease biomarkers and provides insights into disease pathogenesis. N-Glycans of the total serum glycoproteins from advanced breast cancer patients and healthy individuals were sequenced by HPLC with fluorescence detection coupled with exoglycosidase digestions and mass spectrometry. We observed a significant increase in a trisialylated triantennary glycan containing alpha1,3-linked fucose which forms part of the sialyl Lewis x epitope. Following digestion of the total glycan pool with a combination of sialidase and beta-galactosidase, we segregated and quantified a digestion product, a monogalactosylated triantennary structure containing alpha1,3-linked fucose. We compared breast cancer patients and controls and detected a 2-fold increase in this glycan marker in patients. In 10 patients monitored longitudinally, we showed a positive correlation between this glycan marker and disease progression and also demonstrated its potential as a better indicator of metastasis compared to the currently used biomarkers, CA 15-3 and carcinoembryonic antigen (CEA). A pilot glycoproteomic study of advanced breast cancer serum highlighted acute-phase proteins alpha1-acid glycoprotein, alpha1-antichymotrypsin, and haptoglobin beta-chain as contributors to the increase in the glycan marker which, when quantified from each of these proteins, marked the onset of metastasis in advance of the CA 15-3 marker. These preliminary findings suggest that specific glycans and glycoforms of proteins may be candidates for improved markers in the monitoring of breast cancer progression.     

Insights into the molecular basis of leukocyte tethering and rolling revealed by structures of P- and E-selectin bound to SLe(X) and PSGL-1

P-, E- and L-selectin constitute a family of cell adhesion receptors that mediate the initial tethering and rolling of leukocytes on inflamed endothelium as a prelude to their firm attachment and extravasation into tissues. The selectins bind weakly to sialyl Lewisx (SLe(X))-like glycans, but with high-affinity to specific glycoprotein counterreceptors, including PSGL-1. Here, we report crystal structures of human P- and E-selectin constructs containing the lectin and EGF (LE) domains co-complexed with SLe(X). We also present the crystal structure of P-selectin LE co-complexed with the N-terminal domain of human PSGL-1 modified by both tyrosine sulfation and SLe(X). These structures reveal differences in how E- and P-selectin bind SLe(X) and the molecular basis of the high-affinity interaction between P-selectin and PSGL-1.     

Mass spectrometric assay for analysis of haptoglobin fucosylation in pancreatic cancer

A mass spectrometric method was developed to elucidate the N-glycan structures of serum glycoproteins and utilize fucosylated glycans as potential markers for pancreatic cancer. This assay was applied to haptoglobin in human serum where N-glycans derived from the serum of 16 pancreatic cancer patients were compared with those from 15 individuals with benign conditions (5 normals, 5 chronic pancreatitis, and 5 type II diabetes). This assay used only 10 μL of serum where haptoglobin was extracted using a monoclonal antibody and quantitative permethylation was performed on desialylated N-glycans followed by MALDI-QIT-TOF MS analysis. Eight desialylated N-glycan structures of haptoglobin were identified where a bifucosylated triantennary structure was reported for the first time in pancreatic cancer samples. Both core and antennary fucosylation were elevated in pancreatic cancer samples compared to samples from benign conditions. Fucosylation degree indices were calculated and show a significant difference between pancreatic cancer patients of all stages and the benign conditions analyzed. This study demonstrates that a serum assay based on haptoglobin fucosylation patterns using mass spectrometric analysis may serve as a novel method for the diagnosis of pancreatic cancer.     

Identification of new cancer biomarkers based on aberrant mucin glycoforms by in situ proximity ligation

Mucin glycoproteins are major secreted or membrane-bound molecules that, in cancer, show modifications in both the mucin proteins expression and in the O-glycosylation profile, generating some of the most relevant tumour markers in clinical use for decades. Thus far, the identification of these biomarkers has been based on the detection of either the protein or the O-glycan modifications. We therefore aimed to identify the combined mucin and O-glycan features, that is, specific glycoforms, in an attempt to increase specificity of these cancer biomarkers. Using in situ proximity ligation assays (PLA) based on existing monoclonal antibodies directed to MUC1, MUC2, MUC5AC and MUC6 mucins and to cancer-associated carbohydrate antigens Tn, Sialyl-Tn (STn), T, Sialyl-Le(a) (SLe(a)) and Sialyl-Le(x) (SLe(x)) we screened a series of 28 mucinous adenocarcinomas from different locations (stomach, ampulla of Vater, colon, lung, breast and ovary) to detect specific mucin glycoforms. We detected Tn/STn/SLe(a)/SLe(x)-MUC1 and STn/SLe(a)/SLe(x)-MUC2 glycoforms in ≥50% of the cases, with a variable distribution among organs. Some new glycoforms-T/SLe(a)-MUC2, STn/T/SLe(a) SLe(x)-MUC5AC and STn/T/SLe(a)/SLe(x)-MUC6-were identified for the first time in the present study in a variable percentage of cases from different organs. In conclusion, application of the PLA technique allowed sensitive detection of specific aberrant mucin glycoforms in cancer, increasing specificity to the use of antibodies either to the mucin protein backbone or to the O-glycan haptens alone.     

Structure determination of the glycans of human-serum alpha 1-antichymotrypsin using 1H-NMR spectroscopy and deglycosylation by N-glycanase

alpha 1-Antichymotrypsin purified from normal human serum was separated by affinity chromatography into th ree microheterogeneous forms on a concanavalin-A-Sepharose column: a pass-through (peak 1), a retarded (peak 2) and a bound form (peaks 3 + 4). For each form the asparagine-linked carbohydrate chains were liberated as oligosaccharides by hydrazinolysis, submitted to reduction with NaBH4 after re-N-acetylation and further separated by affinity chromatography on a concanavalin-A-Sepharose column. The complete primary structure of the glycans was determined by high-resolution 1H-NMR spectroscopy. The results indicated the presence of disialyl diantennary and of trisialyl triantennary type glycanic structures, the latter being accompanied by traces of disialylated triantennary oligosaccharide. The N-glycanase was used for the deglycosylation of the unfractionated alpha 1-antichymotrypsin; the successive removal of the N-linked complex-type oligosaccharide side chains of alpha 1-antichymotrypsin was studied in the presence of detergents. From these experiments it is concluded that alpha 1-antichymotrypsin carries four oligosaccharide side chains. Moreover our results show that the peak 1 contains four triantennary glycans, the peak 2 three triantennary and one diantennary glycans while the bound peaks 3 + 4 possess, on average, about one triantennary and three diantennary glycans per molecule. Since we showed that the peak 4 contains mostly diantennary glycans, it can be deduced that in peak 3 there are molecules carrying two triantennary and two diantennary glycans and others carrying one triantennary and three diantennary glycans.     

Physiological significance of the marked increased branching of the glycans of human serotransferrin during pregnancy.

Human serotransferrin (Tf) presents a microheterogeneity based on the existence of biantennary and triantennary glycans of the N-acetyl-lactosaminic type. By affinity chromatography on a concanavalin A-Sepharose column in well-defined conditions, human serotransferrin isolated from healthy donors was resolved into three carbohydrate molecular variants: Tf-I (less than 1%), Tf-II (17 +/- 2%) and Tf-III (82 +/- 3%) containing two triantennary glycans, one triantennary and one biantennary glycans and two biantennary glycans respectively. In addition, two 'isomers' of the triantennary glycans containing the third antenna beta-1,4-linked to the alpha-1,3-mannose residue or beta-1,6-linked to the alpha-1,6-mannose residue were characterized by methylation analysis in the ratio 1:1 in both Tf-I and Tf-II variants. On concanavalin A crossed immuno-affinity electrophoresis, the patterns exhibited by each of the three purified variants or by a mixture of these variants were compared with the patterns given by transferrin present in sera from nonpregnant and pregnant women. The results suggest that the relative proportions of transferrin carbohydrate variants was unchanged when the concentration of transferrin was increased in serum from normal donors, whereas in the serum of pregnant women, especially in the last 3 months of pregnancy, when the serum concentration of transferrin reached 4.5-5 g/l, the relative proportions of the carbohydrate variants Tf-I and Tf-II increased from 1 to 6 +/- 1% and from 17 +/- 2 to 26 +/- 3% respectively while that of Tf-III decreased from 82 +/- 3 to 67 +/- 3%. The binding of the three transferrin carbohydrate variants to the receptor of the syncytiotrophoblast plasma membranes was determined by using Scatchard-plot analysis. The number of binding sites remained constant with an increase in the number of triantennary glycans whereas a decrease up to 6-fold in the affinity constant was observed. Detection of the transferrin-receptor complex by immunoblotting in the presence of non-dissociating detergents revealed the existence of only one type of receptor or of a receptor possessing similar properties involved in the binding of each of the three serotransferrin carbohydrate variants.     

N-Glycosylation of total cellular glycoproteins from the human ovarian carcinoma SKOV3 cell line and of recombinantly expressed human erythropoietin

Ovarian carcinoma is the leading cause of death from gynecological cancers in many Western countries. Aberrant glycosylation is an important aspect in malignant transformation and consequently in ovarian cancer. In this study, a detailed structure analysis of the N-linked glycans from total glycoproteins from the SKOV3 ovarian carcinoma cell line and from a recombinantly expressed secretory glycoprotein, erythropoietin (EPO), produced from the same cells has been performed using high-performance anion exchange chromatography with pulsed amperometric detection and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Total cellular N-glycans contained high-mannose type and proximally fucosylated complex type partially agalactosylated structures. On the other hand, the recombinant human EPO secreted from SKOV3 cells contained predominantly core-fucosylated tetraantennary structures, which were partially lacking one or two galactose residues, and partially contained the LacdiNAc motif. Only minor amounts of di- and triantennary complex-type glycans were found, and high-mannose-type glycans were not present in the secreted EPO protein. A large amount of N-acetylneuraminic acid in α2,3-linkage was detected as well. Endogenous glycoproteins were also found to contain the LacdiNAc motif in N-linked glycans. This work contributes to the knowledge of the glycosylation of a human ovarian cancer cell line. It also establishes the basis to further explore high-mannose-type glycans, and the LacdiNAc motif as possible markers of ovarian carcinoma.     

Insulin/protein kinase B signalling pathway upregulates metastasis-related phenotypes and molecules in H7721 human hepatocarcinoma cell line.

The effect of insulin on cancer metastatic potential was studied in a human hepatocarcinoma cell line, H7721. Cell adhesion to human umbilical vein endothelial cells (HUVECs) and laminin as well as chemotactic cell migration and invasion were selected as the indices of metastasis-related phenotypes for assessment of metastatic potential ex vivo. The results indicated that insulin enhanced all of these metastasis-related phenotypes. After the cells were treated with specific inhibitor of PI3K (LY294002) or transfected with antisense cDNA of PKB (AS-PKB), all of the above phenotypes were attenuated, and they could not be significantly stimulated by insulin, indicating that the insulin effect on metastatic potential was mediated by PI3K and PKB. Only the monoclonal antibody to the sialyl Lewis X (SLe(x)), but not antibodies to other Lewis antigens, significantly blocked the cell adhesion to HUVECs, cell migration and invasion, suggesting that SLe(x) played a crucial role in the metastatic potential of H7721 cells. The upregulation of cell surface SLe(x) and alpha-1,3-fucosyltransferase-VII (alpha-1,3 Fuc T-VII, enzyme for SLe(x) synthesis) was also mediated by PI3K and PKB, since LY294002 and AS-PKB also reduced the expressions of SLe(x) and alpha-1,3 FucT-VII, and attenuated the response to insulin. Furthermore, the alterations in the expressions of PKB protein and activity were correlated to the changes of metastatic phenotypes and SLe(x) expression. Taken together, the insulin/PKB signalling pathway participated in the enhancement of metastatic potential of H7721 cells, which was mediated by the upregulation of the expression of SLe(x) and alpha-1,3 FucT-VII.     

Dynamic alterations in serum IgG N-glycan profiles in the development of colitis-associated colon Cancer in mouse model

BackgroundAlternative glycosylation of serum IgG has been shown to be closely associated with colorectal cancer (CRC). Currently, a dynamic study which can not only minimize the influence of genetic background, environment and other interfering factors during cancer development, but also focus on investigating carcinogenic characteristics of IgG glycan is lacking.MethodsSerum IgG N-glycans were characterized at four stages of CRC development by ultra-performance liquid chromatography in a typical colitis-related CRC mouse model induced by azoxymethane-dextran sodium sulfate. Furthermore, the expression of related glycosyltransferases in splenic B lymphocytes at the corresponding time was also assessed.ResultsThe relative abundance of seven IgG glycans, which can be classified as monoantennary, core fucose, sialic acid, galactose and bisecting, was changed during tumor growth. The abundance of some glycans was altered during the first stage of cancer induction. Correspondingly, the expression of glycosyltransferases in splenic B lymphocytes and different tissues in cancer groups was also decreased compared to that in controls.ConclusionsThis study represents the comprehensive analysis of IgG glycosylation in the dynamic process of colitis-associated CRC. To our knowledge, this is the first report that the expression of glycosyltransferases in mouse splenic B lymphocytes is consistent or inconsistent with the alterations of IgG N-glycans, and the variation tendency is tissue nonspecific.General SignificanceProviding a novel approach to identify the IgG glycans related to the development of CRC and laying a foundation for research on structure and function of glycans using mouse.     

Immunoglobulin G Fc N-glycan profiling in patients with gastric cancer by LC-ESI-MS: relation to tumor progression and survival

The IgG Fc glycans strongly influence the Fcγ receptor interactions and Fc-mediated effector mechanisms. Changes in the structure of IgG glycans are associated with various diseases, such as infections and autoimmunity. However, the possible role of Fc glycans in tumor immunity is not yet fully understood. The aim of this study was to profile the Fc N-glycans of IgG samples from patients with gastric cancer (n = 80) and controls (n = 51) using LC-ESI-MS method to correlate the findings with stage of cancer and patients survival. Analysis of 32 different IgG N-glycans revealed significant increase of agalactosylated (GnGnF, GnGn(bi)F), and decrease of galactosylated (AGn(bi), AGn(bi)F, AA(bi), AAF) and monosialylated IgG glycoforms (NaAF, NaA(bi)) in cancer patients. A statistically significant increase of Fc fucosylation was observed in tumor stage II and III whereas reverse changes were found for the presence of bisecting GlcNAc. Higher level of fully sialylated glycans and elevated expression of glycans with bisecting GlcNAc were associated with better survival rate. Our findings provide the first evidence that the changes in Fc glycan profile may predict the survival of patients with gastric cancer. Cancer stage-dependent changes in Fc fucosylation and the bisecting N-acteylglucosamine expression as well as an association of several IgG glycoforms with the survival suggest that IgG glycosylation is related to pathogenesis of cancer and progression of the disease.     

Proteomic analysis of lung biopsies: Differential protein expression profile between peritumoral and tumoral tissue

The cellular proteome shows a dynamic profile and is subjected to changes in response to various stimuli and disease progression. Lung cancer remains the leading cause of cancer death in industrialized countries. In an attempt to find new disease markers, patients suffering from lung carcinoma have been selected to achieve differential protein expression patterns between normal and neoplasic tissue. After two-dimensional electrophoresis, the spots of interest were digested and identified by matrix-assisted laser desorption/ionization (MALDI) peptide mass fingerprinting. This information will provide a more comprehensive understanding of the disease progression and might constitute a method to complement histopathological diagnosis.     

Evaluation of the serum N-linked glycome for the diagnosis of cancer and chronic inflammation

The identification of serum biomarkers has lead to improvements in the detection and diagnosis of cancer, and combinations of these biomarkers have increased further their sensitivity and specificity. Glycosylation is the most common PTM of secreted proteins and the identification of novel serum glyco-biomarkers has become a topic of increasing interest because the glycan processing pathways are frequently disturbed in cancer cells. A future goal is to combine current biomarkers with glyco-biomarkers to yield further improvements. Well characterised N-glycosylation changes in the serum glycome of cancer patients include changes in the levels of tri- and tetra-antennary glycan structures, sialyl Lewis X epitopes and agalactosylated bi-antennary glycans. Several of these glycosylated markers have been linked to chronic inflammatory diseases, promoting questions about the links between inflammation and cancer. In this review, the glycoproteins which display these glycan epitopes, the glycosyl transferases which can generate them, their potential functions and their use as biomarkers are evaluated.     

Novel glycan biomarkers for the detection of lung cancer

Lung cancer has a poor prognosis and a 5-year survival rate of 15%. Therefore, early detection is vital. Diagnostic testing of serum for cancer-associated biomarkers is a noninvasive detection method. Glycosylation is the most frequent post-translational modification of proteins and it has been shown to be altered in cancer. In this paper, high-throughput HILIC technology was applied to serum samples from 100 lung cancer patients, alongside 84 age-matched controls and significant alterations in N-linked glycosylation were identified. Increases were detected in glycans containing Sialyl Lewis X, monoantennary glycans, highly sialylated glycans and decreases were observed in core-fucosylated biantennary glycans, with some being detectable as early as in Stage I. The N-linked glycan profile of haptoglobin demonstrated similar alterations to those elucidated in the total serum glycome. The most significantly altered HILIC peak in lung cancer samples includes predominantly disialylated and tri- and tetra-antennary glycans. This potential disease marker is significantly increased across all disease groups compared to controls and a strong disease effect is visible even after the effect of smoking is accounted for. The combination of all glyco-biomarkers had the highest sensitivity and specificity. This study identifies candidates for further study as potential biomarkers for the disease.     

Characterization of the oligosaccharides associated with the human ovarian tumor marker CA125

CA125 is a mucin commonly employed as a diagnostic marker for epithelial ovarian cancer. Induction of humoral responses to CA125 leads to increased survival times in patients with this form of cancer, suggesting a potential role for this mucin in tumor progression. In this study, oligosaccharides linked to CA125 derived from the human ovarian tumor cell line OVCAR-3 were subjected to rigorous biophysical analysis. Sequencing of the O-glycans indicates the presence of both core type 1 and type 2 glycans. An unusual feature is the expression of branched core 1 antennae in the core type 2 glycans. CA125 is also N-glycosylated, expressing primarily high mannose and complex bisecting type N-linked glycans. High mannose type glycans include Man5-Man9GlcNAc2. The predominant N-glycans are the biantennary, triantennary, and tetraantennary bisecting type oligosaccharides. Remarkably, the N-glycosylation profiles of CA125 and the envelope glycoprotein gp120 (derived from H9 lymphoblastoid cells chronically infected with HIV-1) are very similar. The CA125-associated N-glycans have also recently been implicated in crucial recognition events involved in both the innate and adaptive arms of the cell-mediated immune response. CA125 may therefore induce specific immunomodulatory effects by employing its carbohydrate sequences as functional groups, thereby promoting tumor progression. Immunotherapy directed against CA125 may attenuate these immunosuppressive effects, leading to the prolonged survival of patients with this extremely serious form of cancer.     

Carbohydrate structure of the concanavalin A molecular variants of alpha-fetoprotein

The structure of the carbohydrate units of alpha-fetoprotein from fetal calf serum has been studied. Glycopeptides and oligosaccharides were prepared from alpha-fetoprotein by protease treatment and hydrazinolysis, respectively, and subjected to carbohydrate and amino acid analysis. Two N-glycosidic glycans are present in each alpha-fetoprotein molecule. These were separated into concanavalin A (ConA)-reactive and nonreactive species on ConA-Sepharose. Methylation analysis, Smith degradation, sequential exoglycosidase treatments, and sizing suggested that the major, ConA-nonreactive fraction is composed of triantennary and the minor, ConA-reactive fraction, of biantennary complex-type ConA-reactive and -nonreactive fractions of intact alpha-fetoprotein, respectively, and refractionated on Con A-Sepharose. The results indicate that 75% of alpha-fetoprotein molecules contain two triantennary complex-type glycans, 20% contain one triantennary and one biantennary glycan, and 5% contain two biantennary glycans. The last two molecular variants are bound to ConA. These results explain, at least in part, the previously found heterogeneity of alpha-fetoprotein with respect to charge and molecular size, and provide a biochemical basis for the differing reactivities toward ConA of alpha-fetoprotein from the yolk sac, fetal liver, and various tumors.     

Tyrosine sulfation and N-glycosylation of human heparin cofactor II from plasma and recombinant Chinese hamster ovary cells and their effects on heparin binding.

The structure of post-translational modifications of human heparin cofactor II isolated from human serum and from recombinant Chinese hamster ovary cells and their effects on heparin binding have been characterized. Oligosaccharide chains were found attached to all three potential N-glycosylation sites in both protein preparations. The carbohydrate structures of heparin cofactor II circulating in blood are complex-type diantennary and triantennary chains in a ratio of 6 : 1 with the galactose being > 90% sialylated with alpha 2-->6 linked N-acetylneuraminic acid. About 50% of the triantennary structures contain one sLe(x) motif. Proximal alpha 1-->6 fucosylation of oligosacharides from Chinese hamster ovary cell-derived HCII was detected in > 90% of the diantennary and triantennary glycans, the latter being slightly less sialylated with exclusively alpha 2-->3-linked N-acetylneuraminic acid units. Applying the ESI-MS/ MS-MS technique, we demonstrate that the tryptic peptides comprising tyrosine residues in positions 60 and 73 were almost completely sulfated irrespective of the protein's origin. Treatment of transfected Chinese hamster ovary cells with chlorate or tunicamycin resulted in the production of heparin cofactor II molecules that eluted with higher ionic strength from heparin-Sepharose, indicating that tyrosine sulfation and N-linked glycans may affect the inhibitor's interaction with glycosaminoglycans.     

Purification and characterization of lectin from fruiting body of Ganoderma lucidum: lectin from Ganoderma lucidum

A novel 114 kDa hexameric lectin was purified from the fruiting bodies of the mushroom Ganoderma lucidum. Biochemical characterization revealed it to be a glycoprotein having 9.3% neutral sugar and it showed hemagglutinating activity on pronase treated human erythrocytes. The lectin was stable in the pH range of 5-9 and temperature up to 50 degrees C. The hemagglutinating activity was inhibited by glycoproteins that possessed N-as well as O-linked glycans. Chemical modification of the G. lucidum lectin revealed contribution of tryptophan and lysine to binding activity. The thermodynamics of binding of bi- and triantennary N-glycans to G. lucidum lectin was studied by spectrofluorimetry. The lectin showed very high affinity for asialo N-linked triantennary glycan and a preference for asialo glycans over sialylated glycans. The binding was accompanied with a large negative change in enthalpy as well as entropy, indicating primarily involvement of polar hydrogen, van der Waals and hydrophobic interactions in the binding.