Sialyl Tn Research Articles

Differential expression of ST6GALNAC1 and ST6GALNAC2 and their clinical relevance to colorectal cancer progression.

Colorectal cancer (CRC) has become a significant global health concern and ranks among the leading causes of morbidity and mortality worldwide. Due to its malignant nature, current immunotherapeutic treatments are used to tackle this issue. However, not all patients respond positively to treatment, thereby limiting clinical effectiveness and requiring the identification of novel therapeutic targets to optimise current strategies. The putative ligand of Siglec-15, Sialyl-Tn (STn), is associated with tumour progression and is synthesised by the sialyltransferases ST6GALNAC1 and ST6GALNAC2. However, the deregulation of both sialyltransferases within the literature remain limited, and the involvement of microRNAs (miRNAs) in STn production require further elucidation. Here, we identified miRNAs involved in the regulation of ST6GALNAC1 via a computational approach and further analysis of miRNA binding sites were determined. In silico tools predicted miR-21, miR-30e and miR-26b to regulate the ST6GALNAC1 gene, all of which had shown significant upregulated expression in the tumour cohort. Moreover, each miRNA displayed a high binding affinity towards the seed region of ST6GALNAC1. Additionally, enrichment analysis outlined pathways associated with several cancer hallmarks, including epithelial to mesenchymal transition (EMT) and MYC targets associated with tumour progression. Furthermore, our in silico findings demonstrated that the ST6GALNAC1 expression profile was significantly downregulated in CRC tumours, and its low expression correlated with poor survival outcomes when compared with patient survival data. In comparison to its counterpart, there were no significant differences in the expression of ST6GALNAC2 between normal and malignant tissues, which was further evidenced in our immunohistochemistry analysis. Immunohistochemistry staining highlighted significantly higher expression was more prevalent in normal human tissues with regard to ST6GALNAC1. In conclusion, the integrated in silico analysis highlighted that STn production is not reliant on deregulated sialyltransferase expression in CRC, and ST6GALNAC1 expression is regulated by several oncomirs. We proposed the involvement of other sialyltransferases in the production of the STn antigen and CRC progression via the Siglec-15/Sia axis.

ST6GALNAC1-mediated sialylation in uterine endometrial epithelium facilitates the epithelium-embryo attachment

IntroductionEmbryo implantation requires synergistic interaction between the embryo and the receptive endometrium. Glycoproteins and glycan-binding proteins are involved in endometrium-embryo attachment. Sialyl Tn (sTn), a truncated O-glycan, is catalyzed by ST6 N-Acetylgalactosaminide Alpha-2,6-Sialyltransferase 1 (ST6GALNAC1) and can be detected by specific Sialic-acid-binding immunoglobulin-like lectins (Siglecs). Whether the sTn-Siglecs axis supports embryo implantation remains unknown. ObjectivesThis paper aims to study the role of ST6GALNAC1/sTn-Siglecs axis in embryo implantation. MethodsST6GALNAC1 and sTn in human endometrium were analyzed by immunohistochemistry. An in vitro implantation model was conducted to evaluate the effects of ST6GALNAC1/sTn on the receptivity of human endometrial AN3CA cells to JAR spheroids. Immunoprecipitation combined with mass spectrometry analysis was carried out to identify the key proteins modified by sTn in endometrial cells. Siglec-6 in human embryos was analyzed by published single-cell RNA sequencing (scRNA-seq) datasets. Protein interaction assay was applied to verify the bond between the Siglec-6 with sTn-modified CD44. St6galnac1 siRNAs and anti-sTn antibodies were injected into the uterine horn of the mouse at the pre-implantation stage to evaluate the role of endometrial St6galnac1/sTn in embryo implantation. Siglec-G in murine embryos was analyzed by immunofluorescence staining. The function of Siglec-G is evidenced by uterine horn injection and protein interaction assay. ResultsBoth human and murine endometrium at the receptive stage exhibit higher ST6GALNAC1 and sTn levels compared to the non-receptive stage. Overexpression of ST6GALNAC1 significantly enhanced the receptivity of AN3CA cells to JAR spheroids. Inhibition of endometrial ST6GALNAC1/sTn substantially impaired embryo implantation in vivo. CD44 was identified as a carrier for sTn in the endometrial cells of both species. Siglec-6 and Siglec-G, expressed in the embryonic trophectoderm, were found to promote embryo attachment, which may be achieved through binding with sTn-modified CD44. ConclusionST6GALNAC1-regulated sTn in the endometrium aids in embryo attachment through interaction with trophoblastic Siglecs.

Sialyl-Tn serves as a potential therapeutic target for ovarian cancer

BackgroundOvarian cancer remains the deadliest of the gynecologic cancers in the United States. There have been limited advances in treatment strategies that have seen marked increases in overall survival. Thus, it is essential to continue developing and validating new treatment strategies and markers to identify patients who would benefit from the new strategy. In this report, we sought to further validate applications for a novel humanized anti-Sialyl Tn antibody-drug conjugate (anti-STn-ADC) in ovarian cancer.MethodsWe aimed to further test a humanized anti-STn-ADC in sialyl-Tn (STn) positive and negative ovarian cancer cell line, patient-derived organoid (PDO), and patient-derived xenograft (PDX) models. Furthermore, we sought to determine whether serum STn levels would reflect STn positivity in the tumor samples enabling us to identify patients that an anti-STn-ADC strategy would best serve. We developed a custom ELISA with high specificity and sensitivity, that was used to assess whether circulating STn levels would correlate with stage, progression-free survival, overall survival, and its value in augmenting CA-125 as a diagnostic. Lastly, we assessed whether the serum levels reflected what was observed via immunohistochemical analysis in a subset of tumor samples.ResultsOur in vitro experiments further define the specificity of the anti-STn-ADC. The ovarian cancer PDO, and PDX models provide additional support for an anti-STn-ADC-based strategy for targeting ovarian cancer. The custom serum ELISA was informative in potential triaging of patients with elevated levels of STn. However, it was not sensitive enough to add value to existing CA-125 levels for a diagnostic. While the ELISA identified non-serous ovarian tumors with low CA-125 levels, the sample numbers were too small to provide any confidence the STn ELISA would meaningfully add to CA-125 for diagnosis.ConclusionsOur preclinical data support the concept that an anti-STn-ADC may be a viable option for treating patients with elevated STn levels. Moreover, our STn-based ELISA could complement IHC in identifying patients with whom an anti-STn-based strategy might be more effective.

Avian influenza A viruses exhibit plasticity in sialylglycoconjugate receptor usage in human lung cells.

It is well known that influenza A viruses (IAV) initiate host cell infection by binding to sialic acid, a sugar molecule present at the ends of various sugar chains called glycoconjugates. These sugar chains can vary in chain length, structure, and composition. However, it remains unknown if IAV strains preferentially bind to sialic acid on specific glycoconjugate type(s) for host cell infection. Here, we utilized CRISPR gene editing to abolish sialic acid on different glycoconjugate types in human lung cells, and evaluated human versus avian IAV infections. Our studies show that both human and avian IAV strains can infect human lung cells by utilizing any of the three major sialic acid-containing glycoconjugate types, specifically N-glycans, O-glycans, and glycolipids. Interestingly, simultaneous elimination of sialic acid on all three major glycoconjugate types in human lung cells dramatically decreased human IAV infection, yet had little effect on avian IAV infection. These studies show that avian IAV strains effectively utilize other less prevalent glycoconjugates for infection, whereas human IAV strains rely on a limited repertoire of glycoconjugate types. The remarkable ability of avian IAV strains to utilize diverse glycoconjugate types may allow for easy transmission into new host species.

Nanoparticles targeting Sialyl-Tn for efficient tyrosine kinase inhibitor delivery in gastric cancer

Gastric cancer (GC) is the fourth leading cause of cancer-related deaths worldwide and, therefore, it is urgent to develop new and more efficient therapeutic approaches. Foretinib (FRT) is an oral multikinase inhibitor targeting MET (hepatocyte growth factor receptor) and RON (recepteur d'origine nantais) receptor tyrosine kinases (RTKs) that has been used in clinical trials for several solid tumors. Targeted uptake of therapeutic polymeric nanoparticles (NPs) represents a powerful approach in cancer cell drug delivery. Previously, a nanodelivery system composed of polymeric NPs functionalized with B72.3 antibody, which targets the tumor-associated antigen Sialyl-Tn (STn), has been developed. Herein, these NPs were loaded with FRT to evaluate its capacity in delivering the drug to multicellular tumors spheroids (MCTS) and mouse models. The data indicated that B72.3 functionalized FRT-loaded PLGA-PEG-COOH NPs (NFB72.3) specifically target gastric MCTS expressing the STn glycan (MKN45 SimpleCell (SC) cells), leading to a decrease in phospho-RTKs activation and reduced cell viability. In vivo evaluation using MKN45 SC xenograft mice revealed that NFB72.3 were able to decrease tumor growth, reduce cell proliferation and tumor necrosis. NFB72.3-treated tumors also showed inactivation of phospho-MET and phospho-RON. This study demonstrates the value of using NPs targeting STn for FRT delivery, highlighting its potential as a therapeutic application in GC. Statement of significanceDespite the advances in gastric cancer therapeutics, it remains one of the diseases with the highest incidence and mortality in the world. Combining targeted therapies with a controlled drug release is an attractive strategy to reduce drug cytotoxic effects and improve specific drug delivery efficiency to the cancer cells. Thus, we developed nanoparticles loaded with a tyrosine kinase inhibitor and targeting a specific tumor glycan exclusive of cancer cells. In in vivo gastric cancer xenograft mice models, these nanoparticles efficiently reduced tumor growth, cell proliferation and tumor necrosis area and inactivated phosphorylation of targeting receptors. This approach represents an innovative therapeutic strategy with high impact in gastric cancer.

Structural insights into Siglec-15 reveal glycosylation dependency for its interaction with T cells through integrin CD11b

Sialic acid-binding Ig-like lectin 15 (Siglec-15) is an immune modulator and emerging cancer immunotherapy target. However, limited understanding of its structure and mechanism of action restrains the development of drug candidates that unleash its full therapeutic potential. In this study, we elucidate the crystal structure of Siglec-15 and its binding epitope via co-crystallization with an anti-Siglec-15 blocking antibody. Using saturation transfer-difference nuclear magnetic resonance (STD-NMR) spectroscopy and molecular dynamics simulations, we reveal Siglec-15 binding mode to α(2,3)- and α(2,6)-linked sialic acids and the cancer-associated sialyl-Tn (STn) glycoform. We demonstrate that binding of Siglec-15 to T cells, which lack STn expression, depends on the presence of α(2,3)- and α(2,6)-linked sialoglycans. Furthermore, we identify the leukocyte integrin CD11b as a Siglec-15 binding partner on human T cells. Collectively, our findings provide an integrated understanding of the structural features of Siglec-15 and emphasize glycosylation as a crucial factor in controlling T cell responses.

An electrochemical molecular assay for the detection of cancer-associated Thomsen-Friedenreich glycans.

e15046 Background: Abnormal glycosylation is a fundamental characteristic in cancer cells, where expression of glycans such as Thomsen-Friedenreich (T), Tn, and sialyl-Tn (STn) are related to particular tumour patterns. T, Tn and STn antigens are unusually short and truncated O-glycans expressed on glycoproteins synthesized within cancer cells and not normally found in healthy tissue or circulating within the blood. The association between blood circulating T-glycans and cancer progression and poor prognosis is now well-known and highlights great potential as biomarkers for cancer screening, diagnosis, and surveillance of diseases during treatment and following remission. Despite this potential, there is currently no established molecular assay for detecting or quantifying these biomarkers in blood biopsy samples. Methods: Using a test strip format reminiscent of a blood glucose test, a new electrochemical molecular assay is introduced for the detection of short O-glycans directly in unprocessed bodily fluids. This assay is based on a self-assembling sensing interface consisting of two glycoproteins, recombinant human lubricin (LUB) and peanut agglutin (PNA). In this interface, the LUB functions as both an anti-fouling layer which mitigates electrode passivation in blood and as a crucial component in the biosensing mechanism for generating readable electrical signals in the presence of target glycans. The PNA, a plant-based lectin, presents high binding specificity towards the T glycoform and functions as the sensor recognition element which is bound to the LUB through T glycans naturally present in the highly glycosylated protein backbone. In this sensing interface, electrical signals are generated by engineering a redox reporter, methylene blue into the LUB/PNA interfacial complex, where the electrical signal is altered by the capture of target glycans by PNA and its impact on the molecular dynamics of the LUB/PNA interfacial complex. Results: Using this test strip, it is possible to detect short cancer-related glycans in concentrations as low as nanomolar directly in small volumes of unprocessed whole blood. These test strips likewise show comparable results to an ELISA test developed in parallel for the detection of short O-glycans. The tests carried out with retrospective blood plasma samples from patients presenting three different tumour types, including prostate (18 patients), colorectal (15 patients), and breast cancer (6 patients), and plasma samples from healthy donors (10 different donors) showed differentiation of response signals between healthy and diseased patients. Conclusions: These findings highlight the clinical potential of this new disposable test strip for the detection of tumour associated glycans, which can be incorporated into point-of-care devices, for cancer monitoring and perhaps one day in screening and diagnosis.

Abstract 2966: Exploring the therapeutic potential of a novel Siglec-6 targeted bispecific antibody to selectively kill leukemia cells

Abstract Objectives of the Study: Bispecific antibodies (BsAbs) are a class of immunotherapy drugs that facilitate targeted killing of cancer cells. Here, we report therapeutic potential of a novel Siglec-6/CD3 targeted bsAb against chronic lymphocytic leukemia (CLL) cells. We show here for the first time the functional and therapeutic relevance of Siglec-6 in CLL cell adhesion and migration. Mechanistically, we have shown Siglec-6 mediated cell adhesion and migration through Siglec-6 ligand (sialyl Tn) mediated DOCK8 dependent activation of Cdc42 associated with actin polymerization. To evaluate the therapeutic potential of Siglec-6, we generated a human (hu) Siglec-6 transgenic mouse model and crossed it with the TCL1 CLL mouse model to obtain Siglec-6 x TCL1 mice which develop Siglec-6+ leukemia. A pilot in-vivo study with anti-Siglec-6/CD3 targeted bsAb showed a survival benefit in humanized CD3 (huCD3) mice engrafted with Siglec-6+ leukemic cells. Methods used: Flow cytometry was used to analyze cell surface expression of Siglec-6 and sialyl Tn (sTn). Mass spectrometry analysis was performed to identify Siglec-6 interacting proteins. CRISPR/Cas9 technique was used to generate knock-out (KO) cell lines for mechanistic studies. Phalloidin staining followed by confocal imaging was used to examine actin polymerization. For in-vivo BsAb treatment experiments, huCD3 mice were engrafted with 5 million Siglec-6+ leukemic cells isolated from Siglec-6 x TCL1 mouse splenocytes. Weekly treatment (i.v) was started after mice display 5% circulating leukemia. Results and Conclusion: Compared to Siglec-6+ CLL cells, Siglec-6- CLL cells exhibited significant reduction in adhesion to (~50%) and migration towards (~50%) CLL-BMSCs. Importantly, a Siglec-6 targeted antibody inhibited homing of Siglec-6+ MEC1 cells and primary CLL cells to the spleen and bone marrow in NSG mice (~35%). Mass spectrometry and co-immunoprecipitation analysis in MEC1 cells revealed interaction of Siglec-6 with DOCK8, a guanine nucleotide exchange factor. Stimulation of Siglec-6+ MEC1 cells with sTn resulted in Cdc42 activation and WASP protein recruitment, followed by increased actin polymerization, that were compromised in Siglec-6 or DOCK8 KO MEC1 cells. Siglec-6+ leukemia engrafted huCD3 mice treated with anti-Siglec-6/CD3 BsAb has so far demonstrated a survival benefit with median survival of 18 weeks versus a median survival of 8 weeks in the control group that received a non-targeting BsAb (n=4/group). Significance: We have for the first time shown Siglec-6 dependent recruitment of DOCK8 leading to migration and adhesion of B-CLL cells. An anti-Siglec-6/CD3 BsAb provides a survival benefit against Siglec-6+ leukemia, paving the way for development of Siglec-6 targeted therapeutics to treat CLL. Citation Format: Jessica Nunes, Charlene Mao, Matthew Purcell, Elizabeth Perry, Liwen Zhang, Xiaokui Mo, Matthew Cyr, Meixiao Long, John Byrd, Christoph Rader, Natarajan Muthusamy. Exploring the therapeutic potential of a novel Siglec-6 targeted bispecific antibody to selectively kill leukemia cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 2966.

Targeted O-glycoproteomics for the development of diagnostic markers for advanced colorectal cancer.

Aberrant glycosylation is a prominent feature of cancer, that can be used as targets to improve the existing cancer biomarkers, and help to assess metastasis risks, and therapeutic effects. We developed a targeted O-glycoproteomics method using serum specimens, and evaluated its utility in identifying advanced colorectal cancer (CRC) markers. To this end, we combined consecutive lectin affinity purification using Maclura pomifera lectin (MPL), jacalin, and Sambucus nigra lectin, which have affinities for the following O-glycans, that have received attention as cancer-related antigens, Tn (GalNAc-Ser/Thr), Sialyl Tn (Siaα2-6GalNAc-Ser/Thr), T (Galβ1-3GalNAc-Ser/Thr), Sialyl T (Siaα2-3Galβ1-GalNAc-Ser/Thr), and di-Sialyl T (Siaα2-3Galβ1-3[Siaα2-6] GalNAc-Ser/Thr), with a unique O-glycoproteomics approach. A total of 2,068 O-glycoforms derived from 265 proteins were identified in healthy individuals and patients with advanced CRC, of which 44 CRC-specific O-glycoforms were extracted. Particularly, five glycoproteins with T, Sialyl T, and di-Sialyl T antigens in specific peptide regions were evaluated quantitatively and statistically. We found that fibulin-2 (FBLN2) (aa330-349)/T antigen (area under the curve [AUC] = 0.92); macrophage colony-stimulating factor 1 (CSF1) (aa370-395)/(T + di-Sialyl T) (AUC = 0.94); macrophage mannose receptor 1 (MRC1) (aa1083-1101 and aa1215-1229)/T (AUC = 0.96 and 0.99); fibrinogen alpha chain (FGA) (aa354-367, aa511-527 and aa559-573)/Sialyl T (AUC = 0.98, 0.90 and 0.94); and complement component C7 (C7) (aa692-701)/di-Sialyl T (AUC = 1.00), can have high diagnostic efficacy to strategically predict advanced CRC groups. Hence, they could be promising markers for detection of advanced CRC, and provide new clinical test indicators along with lectins, such as MPL and jacalin. Our O-glycoproteomics platform provides a novel tool and resource, for researchers and clinicians seeking to better understand and treat advanced CRC.

The (Sialyl) Tn antigen: Contributions to immunosuppression in gastrointestinal cancers.

Cellular signaling pathways are intricately regulated to maintain homeostasis. During cancer progression, these mechanisms are manipulated to become harmful. O-glycosylation, a crucial post-translational modification, is one such pathway that can lead to multiple isoforms of glycoproteins. The Tn (GalNAc-O-Ser/Thr) and Sialyl Tn (STn; Neu5Ac-GalNAc-O-Ser/Thr) antigens resulting from the incomplete synthesis of fully branched O-glycan chains on proteins contribute to disease progression in the pancreas and other gastrointestinal cancers. The tumor microenvironment (TME) is a major constituent of tumors and a key modulator of their behavior. Multiple cellular and secretory components of the TME dictate the development and metastasis of tumors. Immune cells like macrophages, natural killer (NK) cells, dendritic cells, B and T lymphocytes are a part of the tumor "immune" microenvironment (TIME). The expression of the Tn and STn antigens on tumors has been found to regulate the function of these immune cells and alter their normal antitumor cytotoxic role. This is possible through multiple cell intrinsic and extrinsic signaling pathways, elaborated in this review. Studying the interaction between Tn/STn antigens and the TIME of gastrointestinal cancers can help develop better and more robust therapies that can counteract immunosuppressive mechanisms to sensitize these tumors to anticancer therapies.

Polymeric nanoparticles targeting Sialyl-Tn in gastric cancer: A live tracking under flow conditions.

Drug delivery using nanoparticles (NPs) represents a potential approach for therapy in cancer, such gastric cancer (GC) due to their targeting ability and controlled release properties. The use of advanced nanosystems that deliver anti-cancer drugs specifically to tumor cells may strongly rely on the expression of cancer-associated targets. Glycans aberrantly expressed by cancer cells are attractive targets for such delivery strategy. Sialylated glycans, such as Sialyl-Tn (STn) are aberrantly expressed in several epithelial tumors, including GC, being a potential target for a delivery nanosystem. The aim of this study was the development of NPs surface-functionalized with a specific antibody targeting the STn glycan and further evaluate this nanosystem effectiveness regarding its specificity and recognition capacity. Our results showed that the NPs surface-functionalized with anti-STn antibody efficiently are recognized by cells displaying the cancer-associated STn antigen under static and live cell monitoring flow conditions. This uncovers the potential use of such NPs for drug delivery in cancer. However, flow exposure was disclosed as an important biomechanical parameter to be taken into consideration. Here we presented an innovative and successful methodology to live track the NPs targeting STn antigen under shear stress, simulating the physiological flow. We demonstrate that unspecific binding of NPs agglomerates did not occur under flow conditions, in contrast with static assays. This robust approach can be applied for in vitro drug studies, giving valuable insights for in vivo studies.

P-Coumaric acid, Kaempferol, Astragalin and Tiliroside Influence the Expression of Glycoforms in AGS Gastric Cancer Cells.

Abnormal glycosylation of cancer cells is considered a key factor of carcinogenesis related to growth, proliferation, migration and invasion of tumor cells. Many plant-based polyphenolic compounds reveal potential anti-cancer properties effecting cellular signaling systems. Herein, we assessed the effects of phenolic acid, p-coumaric acid and flavonoids such as kaempferol, astragalin or tiliroside on expression of selected cancer-related glycoforms and enzymes involved in their formation in AGS gastric cancer cells. The cells were treated with 80 and 160 µM of the compounds. RT-PCR, Western blotting and ELISA tests were performed to determine the influence of polyphenolics on analyzed factors. All the examined compounds inhibited the expression of MUC1, ST6GalNAcT2 and FUT4 mRNAs. C1GalT1, St3Gal-IV and FUT4 proteins as well as MUC1 domain, Tn and sialyl T antigen detected in cell lysates were also lowered. Both concentrations of kaempferol, astragalin and tiliroside also suppressed ppGalNAcT2 and C1GalT1 mRNAs. MUC1 cytoplasmic domain, sialyl Tn, T antigens in cell lysates and sialyl T in culture medium were inhibited only by kaempferol and tiliroside. Nuclear factor NF-κB mRNA expression decreased after treatment with both concentrations of kaempferol, astragalin and tiliroside. NF-κB protein expression was inhibited by kaempferol and tiliroside. The results indicate the rationality of application of examined polyphenolics as potential preventive agents against gastric cancer development.

Pan-cancer analysis of altered glycosyltransferases confers poor clinical outcomes.

Pan-cancer analysis of altered glycosyltransferases confers poor clinical outcomes.

Delineating the mechanistic pathway and therapeutic potential of Siglec-6 in Chronic Lymphocytic Leukemia

Abstract Sialic acid-binding immunoglobulin-like lectins (Siglec) regulate immune function via glycan recognition. Here, we show for the first time the functional relevance of Siglec-6 and its ligand sialyl Tn (sTn) in cell adhesion and migration in chronic lymphocytic leukemia (CLL). Siglec-6+ primary B-CLL cells have significantly enhanced adhesion and migration towards sTn+ CLL− bone marrow stromal cells. A Siglec-6 targeted antibody inhibited homing of Siglec-6+ MEC1 cells and B-CLL cells to the spleen and bone marrow in NSG mice. Mass spectrometry analysis in MEC1 cells revealed interaction of Siglec-6 with DOCK8, a guanine nucleotide exchange factor. Stimulation of Siglec-6+ MEC1 cells with sTn resulted in Cdc42 activation, WASP recruitment and enhanced actin polymerization, which were compromised in Siglec-6 or DOCK8 KO MEC1 cells. Additionally, cell fractionation experiments revealed that Siglec-6+ MEC1 cells and B-CLL cells had higher levels of DOCK8 at the cell membrane when compared to MEC1 Siglec-6 KO cells and normal donor B cells respectively, indicating that Siglec-6 may be responsible for tethering DOCK8 to the cell membrane and is important for promoting actin polymerization at the leading cell edge. To study the therapeutic potential of Siglec-6, we generated a Siglec-6+ CLL mouse model (Siglec-6 x TCL1). Ex vivo experiments with a Siglec-6/CD3 targeted bispecific antibody showed specific killing of Siglec-6+ leukemic B cells. In summary, our studies have identified a novel role for Siglec-6 in promoting DOCK8 dependent CLL cell migration and opens up new therapeutic avenues to eliminate Siglec-6+ malignant B cells. Ongoing studies are focused on evaluating in vivo efficacy of Siglec-6/CD3 targeted bispecific antibody. Natarajan Muthusamy: NIH-R21 Grant and Pelotonia Idea grant Jessica Nunes: Pelotonia Graduate Fellowship

Diagnostic value of tumor markers in identifying favorable or unfavorable subsets in patients with cancer of unknown primary: a retrospective study

BackgroundRoutine measurement of tumor markers is not recommended in daily clinical practice for patients with cancer of unknown primary (CUP). We evaluated the diagnostic value of tumor markers in identifying favorable or unfavorable subsets in patients with CUP.MethodsWe retrospectively reviewed the medical records of patients who were diagnosed with CUP between October 2010 and July 2015 at the National Cancer Center Hospital. The tumor markers of the patients were examined, including squamous cell carcinoma antigen, cytokeratin fraction, carcinoembryonic antigen, sialyl Lewis X, neuron-specific enolase, pro-gastrin-releasing peptide, α-fetoprotein, protein induced by vitamin K absence or antagonist II, prostate-specific antigen, soluble interleukin-2 receptor, carbohydrate antigen 19–9, cancer antigen 125, cancer antigen 15–3, NCC-ST-439 (ST439), elastase-1, human chorionic gonadotropin, and sialyl-Tn (STN).ResultsAmong 199 patients with suspected CUP, 90 were diagnosed with confirmed CUP (12 in the favorable subset and 78 in the unfavorable subset). No tumor markers showed 100% sensitivity for unfavorable subsets. ST439 (p = 0.03) and STN (p = 0.049) showed 100% specificity for unfavorable subsets.ConclusionsFor patients with suspected CUP who show elevated ST439 or STN levels, the treatment strategy should be based on the premise that the patient is likely to be placed in the unfavorable subset.

Precise immunological evaluation rationalizes the design of a self-adjuvanting vaccine composed of glycan antigen, TLR1/2 ligand, and T-helper cell epitope.

Sialyl-Tn (STn), overexpressed on various tumors, has been investigated for its application in anti-cancer vaccine therapy. However, Theratope, an STn-based vaccine, failed in the phase III clinical trial due to poor immunogenicity and epitope suppression by the foreign carrier protein. We therefore developed a self-adjuvanting STn based-vaccine, a conjugate of clustered STn (triSTn) antigen, TLR1/2 ligand (Pam3CSK4), and T-helper (Th) cell epitope, and found that this three-component self-adjuvanting vaccine effectively resulted in the production of anti-triSTn IgG antibodies. We herein analyzed immune responses induced by this self-adjuvanting vaccine in detail. We newly synthesized two-component vaccines, i.e., Pam3CSK4- or Th epitope-conjugated triSTn, as references to evaluate the immune-stimulating functions of Pam3CSK4 and Th epitope. Immunological evaluation of the synthesized vaccine candidates revealed that Pam3CSK4 was essential for antibody production, indicating that the uptake of triSTn antigen by antigen-presenting cells (APCs) was promoted by the recognition of Pam3CSK4 by TLR1/2. The function of the Th epitope was also confirmed. Th cell activation was important for boosting antibody production and IgG subclass switching. Furthermore, flow cytometric analyses of immune cells, including T cells, B cells, dendritic cells, and other monocytes, were first employed in the evaluation of self-adjuvanting vaccines and revealed that the three-component vaccine was able to induce antigen-specific immune responses for efficient antibody production without excessive inflammatory responses. Importantly, the co-administration of Freund's adjuvants was suggested to cause excessive myeloid cell accumulation and decreased plasma cell differentiation. These results demonstrate that vaccines can be designed to achieve the desired immune responses via the bottom-up construction of each immune element.

Glycoproteogenomics characterizes the CD44 splicing code associated with bladder cancer invasion.

Rationale: Bladder cancer (BC) management demands the introduction of novel molecular targets for precision medicine. Cell surface glycoprotein CD44 has been widely studied as a potential biomarker of BC aggressiveness and cancer stem cells. However, significant alternative splicing and multiple glycosylation generate a myriad of glycoproteoforms with potentially distinct functional roles. The lack of tools for precise molecular characterization has led to conflicting results, delaying clinical applications. Addressing these limitations, we have interrogated the transcriptome and glycoproteome of a large BC patient cohort for splicing signatures.Methods: CD44 gene and its splicing variants were assessed by Real Time-Polymerase Chain Reaction (RT-PCR) and RNAseq in tumor tissues. The co-localization of CD44 and short O-glycans was evaluated by proximity ligation assay (PLA), immunohistochemistry and double-immunofluorescence. An innovative glycoproteogenomics approach, integrating transcriptomics-customized datasets and glycomics for protein annotation from nanoLC-ESI-MS/MS experiments, was developed and implemented to identify CD44 variants and associated glycosignatures. The impact of CD44 silencing on proliferation and invasion of BC cell lines and glycoengineered cells was determined by BrdU ELISA and Matrigel invasion assays, respectively. Antibody phosphoarrays were used to investigate the role of CD44 and its glycoforms in the activation of relevant oncogenic signaling pathways.Results: Transcriptomics analysis revealed remarkable CD44 isoforms heterogeneity in bladder cancer tissues, as well as associations between short CD44 standard splicing isoform (CD44s), invasion and poor prognosis. We further demonstrated that targeting short O-glycoforms such as the Tn and sialyl-Tn antigens was key to overcome the lack of cancer specificity presented by CD44. Glycoproteogenomics allowed, for the first time, the comprehensive characterization of CD44 splicing code at the protein level. The concept was applied to invasive human BC cell lines, glycoengineered cells, and tumor tissues, enabling unequivocal CD44s identification as well as associated glycoforms. Finally, we confirmed the link between CD44 and invasion in CD44s-enriched cells in vitro by small interfering RNA (siRNA) knockdown, supporting findings from BC tissues. The key role played by short-chain O-glycans in CD44-mediated invasion was also demonstrated through glycoengineered cell models.Conclusions: Overall, CD44s emerged as biomarker of poor prognosis and CD44-Tn/ Sialyl-Tn (STn) as promising molecular signatures for targeted interventions. This study materializes the concept of glycoproteogenomics and provides a key vision to address the cancer splicing code at the protein level, which may now be expanded to better understand CD44 functional role in health and disease.

Defining the Biochemical Role of Sialic Acid-Binding Immunoglobulin-like Lectin-6 in Adhesion and Migration in Chronic Lymphocytic Leukemia

Introduction: Sialic acid-binding immunoglobulin-like lectins (Siglec) are a group of lectins that regulate innate and adaptive immune function via glycan recognition. We and others have shown overexpression of Siglec-6, a member of Siglec family, on B cells from patients with chronic lymphocytic leukemia (CLL) compared to normal donor derived B cells. While placental expression of Siglec-6 has been shown to regulate invasion of trophoblast cells by binding to glycodelin, the biochemical role of Siglec-6 in CLL patients is not known. We describe here for the first time the functional relevance of Siglec-6 and its ligand sialyl Tn (sTn) in cell adhesion and migration in CLL. Biochemical mechanisms of Siglec-6 mediated cell adhesion and migration through DOCK8 dependent activation of Cdc42 associated with actin polymerization in CLL cells are presented. Further, the physiological relevance of Siglec-6/ DOCK8 axis in CLL cell adhesion and migration is validated using primary CLL patient samples, and genetically engineered loss of function Siglec-6 and DOCK8 mutant MEC1 CLL cell line. These studies thus elucidate the biological role of Siglec-6 in malignant CLL B cells and demonstrate therapeutic opportunities targeting Siglec-6 in CLL.Methods: Flow cytometry was used to analyze surface expression of Siglec-6 and sTn in CLL patients and normal donors. Transwell migration assay was used to assess in-vitro migratory role of Siglec-6. Mass spectrometry analysis was performed to identify Siglec-6 interacting proteins. CRISPR/Cas9 technique was used to generate knock-out (KO) cell lines for mechanistic studies. Phalloidin staining followed by confocal imaging was used to examine actin polymerization. Cdc42 activation was evaluated using a commercial kit which uses specialized PAK1-PBD agarose beads to pull down GTP-bound Cdc42. To study the in-vivo migratory role of Siglec-6, MEC1 CLL cell line or primary CLL cells were blocked with an isotype antibody or Siglec-6 targeted antibody and injected into the tail vein of NSG immunocompromised mice. 24 hrs later, mice were euthanized and spleens and BM were processed followed by flow cytometry analysis to determine the number of human CD45+ cells that have migrated.Results: We confirmed Siglec-6 overexpression on B cells from CLL patients when compared to B cells from normal donors. Interestingly, we also found expression of sTn on bone marrow stromal cells (BMSCs) derived from CLL patients but not healthy donors. Compared to Siglec-6 + CLL cells, Siglec-6 - CLL cells exhibited significant reduction in adhesion to (~50%) and migration towards (~50%) media containing sTn or sTn + CLL-BMSCs in cell adhesion and trans-well migration assays. Importantly, a Siglec-6 targeted antibody inhibited homing of Siglec-6 + MEC1 cells and primary CLL cells to the spleen and bone marrow in NSG mice (~35%). Mass spectrometry and co-immunoprecipitation analysis in MEC1 cells revealed interaction of Siglec-6 with DOCK8, a guanine nucleotide exchange factor. Stimulation of Siglec-6 + MEC1 cells with sTn resulted in Cdc42 activation and WASP protein recruitment, which are both downstream targets of DOCK8 involved in cell migration. Further, sTn also promoted actin polymerization, an effect that was compromised in Siglec-6 or DOCK8 KO MEC1 cells. Additionally, cell fractionation experiments revealed that Siglec-6 + MEC1 cells had higher levels of DOCK8 at the cell membrane when compared to MEC1 Siglec-6 KO cells, indicating that Siglec-6 may be responsible for tethering DOCK8 to the cell membrane.Conclusions: We have for the first time shown Siglec-6 dependent recruitment of DOCK8 leading to migration and adhesion of B-CLL cells. Siglec-6 signals via DOCK8 to mediate sTn ligand dependent actin polymerization. We have also shown that sTn promotes Cdc42 activation and WASP protein recruitment which are both essential for actin polymerization. Moreover, all these effects were prevented by CRISPR/Cas9 mediated knock out of Siglec-6 or DOCK8 in MEC1 CLL cell line. Thus, Siglec-6 represents a CLL-specific target that opens up new therapeutic avenues to target only malignant B-CLL cells. Ongoing studies are focused on determining molecular mechanisms of Siglec-6 mediated regulation of actin polymerization and CLL-BMSC interactions.[This work was supported by NIH-R21 Grant and Pelotonia Idea grants. JN is a recipient of Pelotonia Graduate Fellowship] DisclosuresByrd: Newave: Membership on an entity's Board of Directors or advisory committees; Vincerx Pharmaceuticals: Current equity holder in publicly-traded company, Membership on an entity's Board of Directors or advisory committees; Novartis, Trillium, Astellas, AstraZeneca, Pharmacyclics, Syndax: Consultancy, Honoraria.

Combined Action of Anti-MUC1 Monoclonal Antibody and Pyrazole-Platinum(II) Complexes Reveals Higher Effectiveness towards Apoptotic Response in Comparison with Monotherapy in AGS Gastric Cancer Cells

MUC1 mucin is a transmembrane glycoprotein aberrantly overexpressed and underglycosylated in most epithelium origin cancers. Combining chemotherapeutics with monoclonal antibodies toward cancer-related antigens is one of the new strategies in cancer therapies. In this study, we assessed the effectiveness of 10 μM cisplatin (cisPt), two pyrazole-platinum(II) complexes (PtPz4 and PtPz6), and 5 μg/mL anti-MUC1 used as monotherapy, as well as cisplatin and its derivatives combined with mAb on apoptotic response and specific cancer-related sugar antigens in AGS gastric cancer cells. Flow cytometry, RT-PCR, Western blotting, and ELISA tests were applied to determine the influence of examined compounds on analyzed factors. PtPz6 combined with anti-MUC1 revealed the strongest apoptotic response compared to control and monotherapy. The combined action of both cisPt derivatives and anti-MUC1 was more effective than monotherapy in relation to Bad, Bcl-xL, Bcl-2, caspase-9, caspase-3, as well as pro- and cleaved caspase-3 protein, and T, sialyl Tn sugar antigens in cell lysates, and Tn, T, sialyl Tn, sialyl T antigens in culture medium. Additionally, PtPz4 administrated with mAb was revealed to be more potent than used alone with regard to Bax protein and Bid expression, and PtPz6 used in complex with anti-MUC1 revealed more efficient action towards Akt and sialyl T antigen expression. These data indicate the rationality of the potential application of combined treatment of anti-MUC1 and cisPt derivatives in gastric cancer therapy.

ST6GalNAc-I promotes lung cancer metastasis by altering MUC5AC sialylation.

Lung cancer (LC) is the leading cause of cancer‐related mortality. However, the molecular mechanisms associated with the development of metastasis are poorly understood. Understanding the biology of LC metastasis is critical to unveil the molecular mechanisms for designing targeted therapies. We developed two genetically engineered LC mouse models KrasG12D/+; Trp53R172H/+; Ad‐Cre (KPA) and KrasG12D/+; Ad‐Cre (KA). Survival analysis showed significantly (P = 0.0049) shorter survival in KPA tumor‐bearing mice as compared to KA, suggesting the aggressiveness of the model. Our transcriptomic data showed high expression of N‐acetylgalactosaminide alpha‐2, 6‐sialyltransferase 1 (St6galnac‐I) in KPA compared to KA tumors. ST6GalNAc‐I is an O‐glycosyltransferase, which catalyzes the addition of sialic acid to the initiating GalNAc residues forming sialyl Tn (STn) on glycoproteins, such as mucins. Ectopic expression of species‐specific p53 mutants in the syngeneic mouse and human LC cells led to increased cell migration and high expression of ST6GalNAc‐I, STn, and MUC5AC. Immunoprecipitation of MUC5AC in the ectopically expressing p53R175H cells exhibited higher affinity toward STn. In addition, ST6GalNAc‐I knockout (KO) cells also showed decreased migration, possibly due to reduced glycosylation of MUC5AC as observed by low STn on the glycoprotein. Interestingly, ST6GalNAc‐I KO cells injected mice developed less liver metastasis (P = 0.01) compared to controls, while colocalization of MUC5AC and STn was observed in the liver metastatic tissues of control mice. Collectively, our findings support the hypothesis that mutant p53R175H mediates ST6GalNAc‐I expression, leading to the sialyation of MUC5AC, and thus contribute to LC liver metastasis.