Your search keyword '"Ganglioside"' showing total 8,120 results

1. Unraveling the glycosphingolipid metabolism by leveraging transcriptome-weighted network analysis on neuroblastic tumors.

Author

Ustjanzew, Arsenij, Nedwed, Annekathrin Silvia, Sandhoff, Roger, Faber, Jörg, Marini, Federico, and Paret, Claudia

Subjects

MEMBRANE lipids, GENE expression, BIOCHEMICAL substrates, GLYCOSPHINGOLIPIDS, GANGLIOSIDES

Abstract

Background: Glycosphingolipids (GSLs) are membrane lipids composed of a ceramide backbone linked to a glycan moiety. Ganglioside biosynthesis is a part of the GSL metabolism, which involves sequential reactions catalyzed by specific enzymes that in part have a poor substrate specificity. GSLs are deregulated in cancer, thus playing a role as potential biomarkers for personalized therapy or subtype classification. However, the analysis of GSL profiles is complex and requires dedicated technologies, that are currently not included in the commonly utilized high-throughput assays adopted in contexts such as molecular tumor boards. Methods: In this study, we developed a method to discriminate the enzyme activity among the four series of the ganglioside metabolism pathway by incorporating transcriptome data and topological information of the metabolic network. We introduced three adjustment options for reaction activity scores (RAS) and demonstrated their application in both exploratory and comparative analyses by applying the method on neuroblastic tumors (NTs), encompassing neuroblastoma (NB), ganglioneuroblastoma (GNB), and ganglioneuroma (GN). Furthermore, we interpreted the results in the context of earlier published GSL measurements in the same tumors. Results: By adjusting RAS values using a weighting scheme based on network topology and transition probabilities (TPs), the individual series of ganglioside metabolism can be differentiated, enabling a refined analysis of the GSL profile in NT entities. Notably, the adjustment method we propose reveals the differential engagement of the ganglioside series between NB and GNB. Moreover, MYCN gene expression, a well-known prognostic marker in NTs, appears to correlate with the expression of therapeutically relevant gangliosides, such as GD2. Using unsupervised learning, we identified subclusters within NB based on altered GSL metabolism. Conclusion: Our study demonstrates the utility of adjusting RAS values in discriminating ganglioside metabolism subtypes, highlighting the potential for identifying novel cancer subgroups based on sphingolipid profiles. These findings contribute to a better understanding of ganglioside dysregulation in NT and may have implications for stratification and targeted therapeutic strategies in these tumors and other tumor entities with a deregulated GSL metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chronic hyperglycemia alters retinal astrocyte microstructure and uptake of cholera toxin B in a murine model of diabetes.

Author

Holden, Joseph M., Bossardet, Olivia L., Bou Ghanem, Ghazi, Calkins, David J., and Wareham, Lauren K.

Abstract

Astrocytes are the principle glial cells of the central nervous system and play an active role in maintaining proper metabolism in surrounding neurons. Because of their involvement in metabolic control, it is likely that their physiology changes in response to metabolic diseases such as diabetes and associated diabetic retinopathy. Here, we investigated whether microstructural changes in astrocyte morphology occur during the early stages of chronic hyperglycemia that may be indicative of early pathogenic programs. We used MORF3 mice in conjunction with streptozotocin‐induced hyperglycemia to investigate the morphology of single retinal astrocytes at an early timepoint in diabetic disease. We report that astrocytes initiate a morphological remodeling program, which depends on both the glycemic background and the presence of intravitreal injury, to alter the amount of the neuronal‐associated pad and bristle microstructural motifs. Additionally, hyperglycemia increases astrocyte uptake of cholera toxin B, possibly reflecting changes in glycolipid and glycoprotein biosynthesis. Chronic hyperglycemia coupled with intravitreal injection of cholera toxin B also causes extensive leukocyte infiltration into the retina. Our results have important clinical relevance as current therapies for diabetic retinopathy involve intravitreal injection of pharmaceuticals in individuals with often poorly controlled blood glucose levels. [ABSTRACT FROM AUTHOR]

Published

2024

3. Cholesterol-Dependent Serotonin Insertion Controlled by Gangliosides in Model Lipid Membranes.

Author

Fantini, Jacques, Azzaz, Fodil, Bennaï, Ryad, Yahi, Nouara, and Chahinian, Henri

Subjects

*SYNAPTIC vesicles, *MEMBRANE lipids, *CELL membranes, *GANGLIOSIDES, *EXOCYTOSIS, *SEROTONIN

Abstract

Serotonin is distinct among synaptic neurotransmitters because it is amphipathic and released from synaptic vesicles at concentrations superior to its water solubility limit (270 mM in synaptic vesicles for a solubility limit of 110 mM). Hence, serotonin is mostly aggregated in the synaptic cleft, due to extensive aromatic stacking. This important characteristic has received scant attention, as most representations of the serotonergic synapse take as warranted that serotonin molecules are present as monomers after synaptic vesicle exocytosis. Using a combination of in silico and physicochemical approaches and a new experimental device mimicking synaptic conditions, we show that serotonin aggregates are efficiently dissolved by gangliosides (especially GM1) present in postsynaptic membranes. This initial interaction, driven by electrostatic forces, attracts serotonin from insoluble aggregates and resolves micelles into monomers. Serotonin also interacts with cholesterol via a set of CH-π and van der Waals interactions. Thus, gangliosides and cholesterol act together as a functional serotonin-collecting funnel on brain cell membranes. Based on this unique mode of interaction with postsynaptic membranes, we propose a new model of serotonergic transmission that takes into account the post-exocytosis solubilizing effect of gangliosides and cholesterol on serotonin aggregates. [ABSTRACT FROM AUTHOR]

Published

2024

4. Unraveling the glycosphingolipid metabolism by leveraging transcriptome-weighted network analysis on neuroblastic tumors

Author

Arsenij Ustjanzew, Annekathrin Silvia Nedwed, Roger Sandhoff, Jörg Faber, Federico Marini, and Claudia Paret

Subjects

Neuroblastoma, Ganglioneuroma, Ganglioneuroblastoma, Ganglioside, GD2, Glycosphingolipids, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Glycosphingolipids (GSLs) are membrane lipids composed of a ceramide backbone linked to a glycan moiety. Ganglioside biosynthesis is a part of the GSL metabolism, which involves sequential reactions catalyzed by specific enzymes that in part have a poor substrate specificity. GSLs are deregulated in cancer, thus playing a role as potential biomarkers for personalized therapy or subtype classification. However, the analysis of GSL profiles is complex and requires dedicated technologies, that are currently not included in the commonly utilized high-throughput assays adopted in contexts such as molecular tumor boards. Methods In this study, we developed a method to discriminate the enzyme activity among the four series of the ganglioside metabolism pathway by incorporating transcriptome data and topological information of the metabolic network. We introduced three adjustment options for reaction activity scores (RAS) and demonstrated their application in both exploratory and comparative analyses by applying the method on neuroblastic tumors (NTs), encompassing neuroblastoma (NB), ganglioneuroblastoma (GNB), and ganglioneuroma (GN). Furthermore, we interpreted the results in the context of earlier published GSL measurements in the same tumors. Results By adjusting RAS values using a weighting scheme based on network topology and transition probabilities (TPs), the individual series of ganglioside metabolism can be differentiated, enabling a refined analysis of the GSL profile in NT entities. Notably, the adjustment method we propose reveals the differential engagement of the ganglioside series between NB and GNB. Moreover, MYCN gene expression, a well-known prognostic marker in NTs, appears to correlate with the expression of therapeutically relevant gangliosides, such as GD2. Using unsupervised learning, we identified subclusters within NB based on altered GSL metabolism. Conclusion Our study demonstrates the utility of adjusting RAS values in discriminating ganglioside metabolism subtypes, highlighting the potential for identifying novel cancer subgroups based on sphingolipid profiles. These findings contribute to a better understanding of ganglioside dysregulation in NT and may have implications for stratification and targeted therapeutic strategies in these tumors and other tumor entities with a deregulated GSL metabolism.

Published

2024

5. Depletion of b-series ganglioside prevents limb length discrepancy after growth plate injury

Author

Yoshiaki Hosokawa, Masatake Matsuoka, Yuko Sakai, Ryuichi Fukuda, Keizumi Matsugasaki, Kentaro Homan, Jun-ichi Furukawa, Tomohiro Onodera, and Norimasa Iwasaki

Subjects

Growth plate, Glycosphingolipid, Ganglioside, Orthopedic surgery, Growth plate cartilage, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Introduction Growth plate damage in long bones often results in progressive skeletal growth imbalance and deformity, leading to significant physical problems. Gangliosides, key glycosphingolipids in cartilage, are notably abundant in articular cartilage and regulate chondrocyte homeostasis. This suggests their significant roles in regulating growth plate cartilage repair. Methods Chondrocytes from 3 to 5 day-old C57BL/6 mice underwent glycoblotting and mass spectrometry. Based on the results of the glycoblotting analysis, we employed GD3 synthase knockout mice (GD3-/-), which lack b-series gangliosides. In 3-week-old mice, physeal injuries were induced in the left tibiae, with right tibiae sham operated. Tibiae were analyzed at 5 weeks postoperatively for length and micro-CT for growth plate height and bone volume at injury sites. Tibial shortening ratio and bone mineral density were measured by micro-CT. Results Glycoblotting analysis indicated that b-series gangliosides were the most prevalent in physeal chondrocytes among ganglioside series. At 3 weeks, GD3-/- exhibited reduced tibial shortening (14.7 ± 0.2 mm) compared to WT (15.0 ± 0.1 mm, P = 0.03). By 5 weeks, the tibial lengths in GD3-/- (16.0 ± 0.4 mm) closely aligned with sham-operated lengths (P = 0.70). Micro-CT showed delayed physeal bridge formation in GD3-/-, with bone volume measuring 168.9 ± 5.8 HU at 3 weeks (WT: 180.2 ± 3.2 HU, P = 0.09), but normalizing by 5 weeks. Conclusion This study highlights that GD3 synthase knockout mice inhibit physeal bridge formation after growth plate injury, proposing a new non-invasive approach for treating skeletal growth disorders.

Published

2024

6. Glutamate, Gangliosides, and the Synapse: Electrostatics at Work in the Brain.

Author

Chahinian, Henri, Yahi, Nouara, and Fantini, Jacques

Subjects

*ACTION potentials, *LIPID rafts, *SYNAPTIC vesicles, *NEURAL conduction, *GANGLIOSIDES, *NEUROTRANSMITTER receptors, *SEROTONIN receptors

Abstract

The synapse is a piece of information transfer machinery replacing the electrical conduction of nerve impulses at the end of the neuron. Like many biological mechanisms, its functioning is heavily affected by time constraints. The solution selected by evolution is based on chemical communication that, in theory, cannot compete with the speed of nerve conduction. Nevertheless, biochemical and biophysical compensation mechanisms mitigate this intrinsic weakness: (i) through the high concentrations of neurotransmitters inside the synaptic vesicles; (ii) through the concentration of neurotransmitter receptors in lipid rafts, which are signaling platforms; indeed, the presence of raft lipids, such as gangliosides and cholesterol, allows a fine tuning of synaptic receptors by these lipids; (iii) through the negative electrical charges of the gangliosides, which generate an attractive (for cationic neurotransmitters, such as serotonin) or repulsive (for anionic neurotransmitters, such as glutamate) electric field. This electric field controls the flow of glutamate in the tripartite synapse involving pre- and post-synaptic neurons and the astrocyte. Changes in the expression of brain gangliosides can disrupt the functioning of the glutamatergic synapse, causing fatal diseases, such as Rett syndrome. In this review, we propose an in-depth analysis of the role of gangliosides in the glutamatergic synapse, highlighting the primordial and generally overlooked role played by the electric field of synaptic gangliosides. [ABSTRACT FROM AUTHOR]

Published

2024

7. Crucial roles of exosomes secreted from ganglioside GD3/GD2-positive glioma cells in enhancement of the malignant phenotypes and signals of GD3/GD2-negative glioma cells.

Author

Hasnat, Mohammad Abul, Yuhsuke Ohmi, Farhana Yesmin, Mariko Kambe, Yoshiyuki Kawamoto, Bhuiyan, Robiul H., Momoka Mizutani, Noboru Hashimoto, Akiko Tsuchida, Yuki Ohkawa, Kei Kaneko, Orie Tajima, Keiko Furukawa, and Koichi Furukawa

Subjects

PLATELET-derived growth factor receptors, FOCAL adhesion kinase, GLIOMAS, GANGLIOSIDES, TUMOR microenvironment, KINASES

Abstract

Neuroectoderm-derived tumors characteristically express gangliosides such as GD3 and GD2. Many studies have reported that gangliosides GD3/GD2 enhance malignant phenotypes of cancers. Recently, we reported that human gliomas expressing GD3/GD2 exhibited enhanced malignant phenotypes. Here, we investigated the function of GD3/GD2 in glioma cells and GD3/GD2-expressing glioma-derived exosomes. As reported previously, transfectant cells of human glioma U251 MG expressing GD3/GD2 showed enhanced cancer phenotypes compared with GD3/GD2-negative controls. When GD3/GD2-negative cells were treated with exosomes secreted from GD3/GD2-positive cells, clearly increased malignant properties were observed. Furthermore, increased phosphorylation of signaling molecules was detected after 5-15 min of exosome treatment, ie, higher tyrosine phosphorylation of platelet-derived growth factor receptor, focal adhesion kinase, and paxillin was found in treated cells than in controls. Phosphorylation of extracellular signal-regulated kinase-1/2 was also enhanced. Consequently, it is suggested that exosomes secreted from GD3/GD2-positive gliomas play important roles in enhancement of the malignant properties of glioma cells, leading to total aggravation of heterogenous cancer tissues, and also in the regulation of tumor microenvironments. [ABSTRACT FROM AUTHOR]

Published

2024

8. Editorial: Pharmacology of gangliosides.

Author

Hongda Zhuang, Zhendong Huang, Birklé, Stéphane, Chammas, Roger, Tikkanen, Ritva, and Yong Chen

Subjects

CELL receptors, TARGETED drug delivery, LIPID rafts, CHIMERIC antigen receptors, PROGNOSIS, MONOCLONAL antibodies, BISPECIFIC antibodies, GLYCOCALYX

Abstract

This editorial, titled "Pharmacology of gangliosides," explores the potential of gangliosides as therapeutic targets and diagnostic biomarkers. Gangliosides are glycosphingolipids found on the surfaces of vertebrate cells and are involved in various diseases, including cancer, neurological disorders, infections, metabolic disorders, autoimmune diseases, and cardiovascular diseases. The editorial provides an overview of recent research on gangliosides, including their role as cancer biomarkers, targeted therapies, enhanced effect of immunotherapy, and drug delivery systems. It highlights the importance of further research into gangliosides in tumor biology and the exploration of other gangliosides beyond GD2 and GD3. The author contributions, funding, acknowledgments, conflict of interest, and publisher's note are also mentioned. [Extracted from the article]

Published

2024

9. Differential effects of ganglioside lipids on the conformation and aggregation of islet amyloid polypeptide.

Author

McCalpin, Samuel D., Mechakra, Lina, Ivanova, Magdalena I., and Ramamoorthy, Ayyalusamy

Abstract

Despite causing over 1 million deaths annually, Type 2 Diabetes (T2D) currently has no curative treatments. Aggregation of the islet amyloid polypeptide (hIAPP) into amyloid plaques plays an important role in the pathophysiology of T2D and thus presents a target for therapeutic intervention. The mechanism by which hIAPP aggregates contribute to the development of T2D is unclear, but it is proposed to involve disruption of cellular membranes. However, nearly all research on hIAPP‐lipid interactions has focused on anionic phospholipids, which are primarily present in the cytosolic face of plasma membranes. We seek here to characterize the effects of three gangliosides, the dominant anionic lipids in the outer leaflet of the plasma membrane, on the aggregation, structure, and toxicity of hIAPP. Our results show a dual behavior that depends on the molar ratio between the gangliosides and hIAPP. For each ganglioside, a low‐lipid:peptide ratio enhances hIAPP aggregation and alters the morphology of hIAPP fibrils, while a high ratio eliminates aggregation and stabilizes an α‐helix‐rich hIAPP conformation. A more negative lipid charge more efficiently promotes aggregation, and a larger lipid headgroup improves inhibition of aggregation. hIAPP also alters the phase transitions of the lipids, favoring spherical micelles over larger tubular micelles. We discuss our results in the context of the available lipid surface area for hIAPP binding and speculate on a role for gangliosides in facilitating toxic hIAPP aggregation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Depletion of b-series ganglioside prevents limb length discrepancy after growth plate injury.

Author

Hosokawa, Yoshiaki, Matsuoka, Masatake, Sakai, Yuko, Fukuda, Ryuichi, Matsugasaki, Keizumi, Homan, Kentaro, Furukawa, Jun-ichi, Onodera, Tomohiro, and Iwasaki, Norimasa

Subjects

*GROWTH plate, *BONE density, *X-ray computed microtomography, *ARTICULAR cartilage, *KNOCKOUT mice

Abstract

Introduction: Growth plate damage in long bones often results in progressive skeletal growth imbalance and deformity, leading to significant physical problems. Gangliosides, key glycosphingolipids in cartilage, are notably abundant in articular cartilage and regulate chondrocyte homeostasis. This suggests their significant roles in regulating growth plate cartilage repair. Methods: Chondrocytes from 3 to 5 day-old C57BL/6 mice underwent glycoblotting and mass spectrometry. Based on the results of the glycoblotting analysis, we employed GD3 synthase knockout mice (GD3-/-), which lack b-series gangliosides. In 3-week-old mice, physeal injuries were induced in the left tibiae, with right tibiae sham operated. Tibiae were analyzed at 5 weeks postoperatively for length and micro-CT for growth plate height and bone volume at injury sites. Tibial shortening ratio and bone mineral density were measured by micro-CT. Results: Glycoblotting analysis indicated that b-series gangliosides were the most prevalent in physeal chondrocytes among ganglioside series. At 3 weeks, GD3-/- exhibited reduced tibial shortening (14.7 ± 0.2 mm) compared to WT (15.0 ± 0.1 mm, P = 0.03). By 5 weeks, the tibial lengths in GD3-/- (16.0 ± 0.4 mm) closely aligned with sham-operated lengths (P = 0.70). Micro-CT showed delayed physeal bridge formation in GD3-/-, with bone volume measuring 168.9 ± 5.8 HU at 3 weeks (WT: 180.2 ± 3.2 HU, P = 0.09), but normalizing by 5 weeks. Conclusion: This study highlights that GD3 synthase knockout mice inhibit physeal bridge formation after growth plate injury, proposing a new non-invasive approach for treating skeletal growth disorders. [ABSTRACT FROM AUTHOR]

Published

2024

11. Antiganglioside antibody frequency in routine clinical care settings.

Author

Giesche, Niklas, Böhm‐Gonzalez, Samuel Tobias, Kleiser, Benedict, Kowarik, Markus C., Dubois, Evelyn, Stransky, Elke, Armbruster, Marcel, Grimm, Alexander, and Marquetand, Justus

Subjects

*CHRONIC inflammatory demyelinating polyradiculoneuropathy, *CLINICAL medicine, *MOTOR neuron diseases, *GUILLAIN-Barre syndrome, *CEREBROSPINAL fluid

Abstract

Background and purpose: Antiganglioside antibodies (AGAs) might be involved in the etiopathogenesis of many neurological diseases, such as Miller–Fisher syndrome (MFS) and Guillain–Barré syndrome (GBS). Available comprehensive reference data regarding AGA positivity rates and cross‐responsiveness among AGAs (where one line immunoblot is positive for ≥1 AGA) during routine clinical care are scant. Methods: In this 10‐year monocentric retrospective study, 3560 immunoglobulin (Ig) G and IgM line blots (GA Generic Assays' Anti‐Ganglioside Dot kit) obtained using cerebrospinal fluid (CSF) and serum samples from 1342 patients were analyzed for AGA positivity in terms of 14 diagnosis categories and AGA cross‐responsiveness. Results: Of all 3560 line blots 158 (4.4%) and of all CSF samples 0.4% (4/924) CSF line blots were AGA positive. For serum IgG, blots with positivity rates higher than the standard deviation of 15.6% were associated with MFS (GD3, GD1a, GT1a and GQ1b) and acute motor axonal neuropathy (AMAN) (GM1, GD1a and GT1a). For serum IgM, blots with positivity rates higher than the standard deviation of 8.1% were associated with AMAN (GM2, GT1a and GQ1b), MFS (GM1, GT1a and GQ1b), multifocal motor neuropathy (MMN) (GM1, GM2 and GQ1b) and chronic inflammatory demyelinating polyneuropathy (CIDP) (GM1). Cross‐responsiveness was observed in 39.6% of all positive serum AGA. Conclusions: Testing for AGAs during routine clinical care rarely led to positive findings, both in serum and even less in CSF, except for the diagnoses AMAN, MFS, MMN and CIDP. Nonspecific findings found as cross‐responsiveness between different AGA samples occur frequently, impacting the positivity of most AGA subtypes. [ABSTRACT FROM AUTHOR]

Published

2024

12. A Novel Cytotoxic Mechanism for Triple-Negative Breast Cancer Cells Induced by the Type II Heat-Labile Enterotoxin LT-IIc through Ganglioside Ligation.

Author

King-Lyons, Natalie D., Bhati, Aryana S., Hu, John C., Mandell, Lorrie M., Shenoy, Gautam N., Willison, Hugh J., and Connell, Terry D.

Subjects

*TRIPLE-negative breast cancer, *CYTOTOXINS, *BREAST cancer, *EPITHELIAL cells, *CELL death

Abstract

Triple-negative breast cancer (TNBC), which constitutes 10–20 percent of all breast cancers, is aggressive, has high metastatic potential, and carries a poor prognosis due to limited treatment options. LT-IIc, a member of the type II subfamily of ADP-ribosylating—heat-labile enterotoxins that bind to a distinctive set of cell-surface ganglioside receptors—is cytotoxic toward TNBC cell lines, but has no cytotoxic activity for non-transformed breast epithelial cells. Here, primary TNBC cells, isolated from resected human tumors, showed an enhanced cytotoxic response specifically toward LT-IIc, in contrast to other enterotoxins that were tested. MDA-MB-231 cells, a model for TNBC, were used to evaluate potential mechanisms of cytotoxicity by LT-IIc, which induced elevated intracellular cAMP and stimulated the cAMP response element-binding protein (CREB) signaling pathway. To dissect the role of ADP-ribosylation, cAMP induction, and ganglioside ligation in the cytotoxic response, MDA-MB-231 cells were exposed to wild-type LT-IIc, the recombinant B-pentamer of LT-IIc that lacks the ADP-ribosylating A polypeptide, or mutants of LT-IIc with an enzymatically inactivated A1-domain. These experiments revealed that the ADP-ribosyltransferase activity of LT-IIc was nonessential for inducing the lethality of MDA-MB-231 cells. In contrast, a mutant LT-IIc with an altered ganglioside binding activity failed to trigger a cytotoxic response in MDA-MB-231 cells. Furthermore, the pharmacological inhibition of ganglioside expression protected MDA-MB-231 cells from the cytotoxic effects of LT-IIc. These data establish that ganglioside ligation, but not the induction of cAMP production nor ADP-ribosyltransferase activity, is essential to initiating the LT-IIc-dependent cell death of MDA-MB-231 cells. These experiments unveiled previously unknown properties of LT-IIc and gangliosides in signal transduction, offering the potential for the targeted treatment of TNBC, an option that is desperately needed. [ABSTRACT FROM AUTHOR]

Published

2024

13. Understanding Aβ Peptide Binding to Lipid Membranes: A Biophysical Perspective †.

Author

Ahyayauch, Hasna, Masserini, Massimo E., Alonso, Alicia, and Goñi, Félix M.

Subjects

*MEMBRANE lipids, *PEPTIDES, *ALZHEIMER'S disease, *CELL membranes, *MOLECULAR dynamics, *LIPIDS

Abstract

Aβ peptides are known to bind neural plasma membranes in a process leading to the deposit of Aβ-enriched plaques. These extracellular structures are characteristic of Alzheimer's disease, the major cause of late-age dementia. The mechanisms of Aβ plaque formation and deposition are far from being understood. A vast number of studies in the literature describe the efforts to analyze those mechanisms using a variety of tools. The present review focuses on biophysical studies mostly carried out with model membranes or with computational tools. This review starts by describing basic physical aspects of lipid phases and commonly used model membranes (monolayers and bilayers). This is followed by a discussion of the biophysical techniques applied to these systems, mainly but not exclusively Langmuir monolayers, isothermal calorimetry, density-gradient ultracentrifugation, and molecular dynamics. The Methodological Section is followed by the core of the review, which includes a summary of important results obtained with each technique. The last section is devoted to an overall reflection and an effort to understand Aβ-bilayer binding. Concepts such as Aβ peptide membrane binding, adsorption, and insertion are defined and differentiated. The roles of membrane lipid order, nanodomain formation, and electrostatic forces in Aβ–membrane interaction are separately identified and discussed. [ABSTRACT FROM AUTHOR]

Published

2024

14. Sphingolipids: Less Enigmatic but Still Many Questions about the Role(s) of Ceramide in the Synthesis/Function of the Ganglioside Class of Glycosphingolipids.

Author

Schengrund, Cara-Lynne

Subjects

*CERAMIDES, *SPHINGOLIPIDS, *GLYCOSPHINGOLIPIDS, *BANKING industry, *GANGLIOSIDES

Abstract

While much has been learned about sphingolipids, originally named for their sphinx-like enigmatic properties, there are still many unanswered questions about the possible effect(s) of the composition of ceramide on the synthesis and/or behavior of a glycosphingolipid (GSL). Over time, studies of their ceramide component, the sphingoid base containing the lipid moiety of GSLs, were frequently distinct from those performed to ascertain the roles of the carbohydrate moieties. Due to the number of classes of GSLs that can be derived from ceramide, this review focuses on the possible role(s) of ceramide in the synthesis/function of just one GSL class, derived from glucosylceramide (Glc-Cer), namely sialylated ganglio derivatives, initially characterized and named gangliosides (GGs) due to their presence in ganglion cells. While much is known about their synthesis and function, much is still being learned. For example, it is only within the last 15–20 years or so that the mechanism by which the fatty acyl component of ceramide affected its transport to different sites in the Golgi, where it is used for the synthesis of Glu- or galactosyl-Cer (Gal-Cer) and more complex GSLs, was defined. Still to be fully addressed are questions such as (1) whether ceramide composition affects the transport of partially glycosylated GSLs to sites where their carbohydrate chain can be elongated or affects the activity of glycosyl transferases catalyzing that elongation; (2) what controls the differences seen in the ceramide composition of GGs that have identical carbohydrate compositions but vary in that of their ceramide and vice versa; (3) how alterations in ceramide composition affect the function of membrane GGs; and (4) how this knowledge might be applied to the development of therapies for treating diseases that correlate with abnormal expression of GGs. The availability of an updatable data bank of complete structures for individual classes of GSLs found in normal tissues as well as those associated with disease would facilitate research in this area. [ABSTRACT FROM AUTHOR]

Published

2024

15. A Dual Strategy—In Vitro and In Silico—To Evaluate Human Antitetanus mAbs Addressing Their Potential Protective Action on TeNT Endocytosis in Primary Rat Neuronal Cells.

Author

Lima, Cauã Pacheco, Barreiros, Gabriela Massaro, Oliveira, Adriele Silva Alves, de Souza, Marcelo Medina, Manieri, Tania Maria, and Moro, Ana Maria

Subjects

*ENDOCYTOSIS, *SYNAPTIC vesicles, *BOOSTER vaccines, *MOLECULAR docking, *IMMUNOGLOBULINS, DEVELOPING countries

Abstract

Tetanus disease, caused by C. tetani, starts with wounds or mucous layer contact. Prevented by vaccination, the lack of booster shots throughout life requires prophylactic treatment in case of accidents. The incidence of tetanus is high in underdeveloped countries, requiring the administration of antitetanus antibodies, usually derived from immunized horses or humans. Heterologous sera represent risks such as serum sickness. Human sera can carry unknown viruses. In the search for human monoclonal antibodies (mAbs) against TeNT (Tetanus Neurotoxin), we previously identified a panel of mAbs derived from B-cell sorting, selecting two nonrelated ones that binded to the C-terminal domain of TeNT (HCR/T), inhibiting its interaction with the cellular receptor ganglioside GT1b. Here, we present the results of cellular assays and molecular docking tools. TeNT internalization in neurons is prevented by more than 50% in neonatal rat spinal cord cells, determined by quantitative analysis of immunofluorescence punctate staining of Alexa Fluor 647 conjugated to TeNT. We also confirmed the mediator role of the Synaptic Vesicle Glycoprotein II (SV2) in TeNT endocytosis. The molecular docking assays to predict potential TeNT epitopes showed the binding of both antibodies to the HCR/T domain. A higher incidence was found between N1153 and W1297 when evaluating candidate residues for conformational epitope. [ABSTRACT FROM AUTHOR]

Published

2024

16. Normal and Dysregulated Sphingolipid Metabolism: Contributions to Podocyte Injury and Beyond.

Author

Tolerico, Matthew, Merscher, Sandra, and Fornoni, Alessia

Subjects

*MOLECULAR size, *LIPID rafts, *LIPID metabolism, *KIDNEY glomerulus diseases, *METABOLISM

Abstract

Podocyte health is vital for maintaining proper glomerular filtration in the kidney. Interdigitating foot processes from podocytes form slit diaphragms which regulate the filtration of molecules through size and charge selectivity. The abundance of lipid rafts, which are ordered membrane domains rich in cholesterol and sphingolipids, near the slit diaphragm highlights the importance of lipid metabolism in podocyte health. Emerging research shows the importance of sphingolipid metabolism to podocyte health through structural and signaling roles. Dysregulation in sphingolipid metabolism has been shown to cause podocyte injury and drive glomerular disease progression. In this review, we discuss the structure and metabolism of sphingolipids, as well as their role in proper podocyte function and how alterations in sphingolipid metabolism contributes to podocyte injury and drives glomerular disease progression. [ABSTRACT FROM AUTHOR]

Published

2024

17. Process Engineering and Glycosyltransferase Improvement for Short Route Chemoenzymatic Total Synthesis of GM1 Gangliosides

Author

Yu, Hai, Zhang, Libo, Yang, Xiaohong, Bai, Yuanyuan, and Chen, Xi

Subjects

Medicinal and Biomolecular Chemistry, Chemical Sciences, Vaccine Related, Emerging Infectious Diseases, Animals, Escherichia coli, G(M1) Ganglioside, Gangliosides, Glycosyltransferases, Mammals, N-Acetylgalactosaminyltransferases, biocatalysis, chemoenzymatic synthesis, ganglioside, glycosphingolipid, GM1, General Chemistry, Chemical sciences

Abstract

Large-scale synthesis of GM1, an important ganglioside in mammalian cells especially those in the nervous system, is needed to explore its therapeutic potential. Biocatalytic production is a promising platform for such a purpose. We report herein the development of process engineering and glycosyltransferase improvement strategies to advance chemoenzymatic total synthesis of GM1. Firstly, a new short route was developed for chemical synthesis of lactosylsphingosine from the commercially available Garner's aldehyde. Secondly, two glycosyltransferases including Campylobacter jejuni β1-4GalNAcT (CjCgtA) and β1-3-galactosyltransferase (CjCgtB) were improved on their soluble expression in E. coli and enzyme stability by fusing with an N-terminal maltose binding protein (MBP). Thirdly, the process for enzymatic synthesis of GM1 sphingosines from lactosylsphingosine was engineered by developing a multistep one-pot multienzyme (MSOPME) strategy without isolating intermediate glycosphingosines and by adding a detergent, sodium cholate, to the later enzymatic glycosylation steps. Installation of a desired fatty acyl chain to GM1 glycosphingosines led to the formation of target GM1 gangliosides. The combination of glycosyltransferase improvement with chemical and enzymatic process engineering represents a significant advance in obtaining GM1 gangliosides containing different sialic acid forms by total chemoenzymatic synthesis in a short route and with high efficiency.

Published

2023

18. Anti-OAcGD2 antibody in combination with ceramide kinase inhibitor mediates potent antitumor cytotoxicity against breast cancer and diffuse intrinsic pontine glioma cells

Author

Kasprowicz, Angelina, Cavdarli, Sumeyye, Delannoy, Philippe, Le Guezennec, Xavier, Defebvre, Clémence, Spriet, Corentin, Jonckheere, Nicolas, Le Doussal, Jean-Marc, Krzewinski-Recchi, Marie-Ange, Mitra, Suman, Meignan, Samuel, and Groux-Degroote, Sophie

Published

2024

19. Brucellosis infection complicated with myelitis: a case report and literature review.

Author

Xiaoyu Ma, Ying Wang, Qiong Wu, Xiaomei Ma, Qiang Wang, and Qinghong Guo

Subjects

LITERATURE reviews, BRUCELLOSIS, CEREBROSPINAL fluid examination, MYELITIS, ZOONOSES

Abstract

Brucellosis is a zoonotic disease caused by a Gram-negative coccus a facultative intracellular pathogen. Neurobrucellosis has an incidence rate of 3-7% among all patients with brucellosis, while spinal cord involvement is rare and carries a significant mortality risk. This report describes a case of brucellosis myelitis in a 55-year-old male patient who presented with recurrent paralysis, incontinence, and damage to the visual and auditory nerves. The diagnosis of neurobrucellosis involves a serum tube agglutination test, cerebrospinal fluid analysis, a physical examination of the nervous system, and a comprehensive review of the patient's medical history. The presence of brucellosis was confirmed in cerebrospinal fluid using MetaCAP™ sequencing. Treatment with a combination of rifampicin, doxycycline, ceftriaxone sodium, amikacin, compound brain peptide ganglioside, and dexamethasone resulted in significant improvement of the patient's clinical symptoms and a decrease in the brucellosis sequence count in cerebrospinal fluid. For the first time, MetaCAP™ sequencing has been used to treat pathogenic microbial nucleic acids, which could be a valuable tool for early diagnosis and treatment of neurobrucellosis. [ABSTRACT FROM AUTHOR]

Published

2024

20. Quercetin Induces Mitochondrial Apoptosis and Downregulates Ganglioside GD3 Expression in Melanoma Cells.

Author

Seo, Sang Young, Ju, Won Seok, Kim, Kyongtae, Kim, Juhwan, Yu, Jin Ok, Ryu, Jae-Sung, Kim, Ji-Su, Lee, Hyun-A, Koo, Deog-Bon, and Choo, Young-Kug

Subjects

*QUERCETIN, *MELANOMA, *SYNTHETIC enzymes, *MITOCHONDRIA, *SKIN cancer, *WNT signal transduction, *APOPTOSIS

Abstract

Malignant melanoma represents a form of skin cancer characterized by a bleak prognosis and heightened resistance to traditional therapies. Quercetin has demonstrated notable anti-carcinogenic, anti-inflammatory, anti-oxidant, and pharmacological effects across various cancer types. However, the intricate relationship between quercetin's anti-cancer properties and ganglioside expression in melanoma remains incompletely understood. In this study, quercetin manifests specific anti-proliferative, anti-migratory, and cell-cycle arrest effects, inducing mitochondrial dysfunction and apoptosis in two melanoma cancer cell lines. This positions quercetin as a promising candidate for treating malignant melanoma. Moreover, our investigation indicates that quercetin significantly reduces the expression levels of ganglioside GD3 and its synthetic enzyme. Notably, this reduction is achieved through the inhibition of the FAK/paxillin/Akt signaling pathway, which plays a crucial role in cancer development. Taken together, our findings suggest that quercetin may be a potent anti-cancer drug candidate for the treatment of malignant melanoma. [ABSTRACT FROM AUTHOR]

Published

2024

21. Potential roles of gangliosides in chemical-induced neurodegenerative diseases and mental health disorders.

Author

Itokazu, Yutaka and Terry Jr., Alvin V.

Subjects

MENTAL illness, APATHY, GANGLIOSIDES, NEURODEGENERATION, GLYCOLIPIDS, ACETYLCHOLINESTERASE

Abstract

This article discusses the potential roles of gangliosides in chemical-induced neurodegenerative diseases and mental health disorders. It emphasizes the importance of environmental factors, particularly toxicants like pesticides, in the development of these illnesses. The article also mentions the use of toxic chemicals as chemical warfare agents and their potential risks to human health. It suggests that gangliosides may play a role in protecting and promoting regeneration of the central nervous system in these diseases and disorders. The article concludes by highlighting the importance of understanding the mechanisms by which chemical agents affect the nervous system and the potential therapeutic strategies involving gangliosides. Additionally, the document provides a list of references for further research on the role of gangliosides in neurological conditions. One of the articles mentioned explores the effects of sarin, a nerve agent, on individuals in Japan, providing insights into the immediate toxicity and long-term effects of sarin exposure. [Extracted from the article]

Published

2024

22. Blockade of Rho-associated kinase prevents inhibition of axon regeneration of peripheral nerves induced by anti-ganglioside antibodies.

Author

Berardo, Andrés, Bacaglio, Cristian R., Báez, Bárbara B., Sambuelli, Rubén, Sheikh, Kazim A., and Lopez, Pablo H. H.

Published

2024

23. The Influence of Lipid Electric Charge on the Binding of Aβ(1–42) Amyloid Peptide to Bilayers in the Liquid-Ordered State.

Author

Ahyayauch, Hasna, Masserini, Massimo E., Goñi, Félix M., and Alonso, Alicia

Subjects

*ELECTRIC charge, *PEPTIDES, *AMYLOID, *ALZHEIMER'S disease, *LIPIDS, *AMYLOID beta-protein

Abstract

The amyloidogenic Aβ peptides are widely considered as a pathogenic agent in Alzheimer's disease. Aβ(1-42) would form aggregates of amyloid fibrils on the neuron plasma membranes, thus perturbing neuronal functionality. Conflicting data are available on the influence of bilayer order on Aβ(1-42) binding to membranes. In the present study, a biophysical approach was used in which isothermal calorimetry and surface pressure measurements were applied to explore the interaction of Aβ(1-42) in either monomeric, oligomeric, or fibrillar form with model membranes (bilayers or monolayers) in the liquid-ordered state that were either electrically neutral or negatively charged. In the latter case, this contained phosphatidic acid, cardiolipin, or ganglioside. The calorimetric studies showed that Aβ(1-42) fibrils, oligomers, and monomers could bind and/or be inserted into bilayers, irrespective of electric charge, in the liquid-ordered state, except that monomers could not interact with electrically neutral bilayers. The monolayer studies in the Langmuir balance demonstrated that Aβ(1-42) aggregation hindered peptide insertion into the monolayer, hindered insertion in the decreasing order of monomer > oligomer > fibril, and that lipid composition did not cause large differences in insertion, apart from a slight facilitation of monomer and oligomer insertion by gangliosides. [ABSTRACT FROM AUTHOR]

Published

2024

24. Fundamental Mechanisms in Membrane Receptology: Old Paradigms, New Concepts and Perspectives.

Author

Fantini, Jacques

Subjects

*RECEPTOR-ligand complexes, *MEMBRANE lipids, *CELL receptors, *LIPID rafts, *LIGAND binding (Biochemistry)

Abstract

Receptology, the science of receptors, is a multidimensional field of research which can be dissected into biosynthesis, membrane sorting, ligand binding and signal transduction. Plasma membrane receptors connect the cells with their environment and transmit signals that are translated into biological information. The historical paradigm of ligand–receptor interactions is the lock-and-key model. This model presupposes that both partners have a precise 3D shape that perfectly fits together to form the ligand–receptor complex. However, this simple model suffers from severe limitations due to several levels of simplifications: (i) water molecules and membrane lipids are not considered; (ii) not all ligands have a stable 3D structure; (iii) the ligand-binding pocket of the receptor is often flexible and conformationally rearranged after the initial binding step (induced fit mechanism) and/or subjected to conformational selection by the ligand; (iv) there are signal transduction mechanisms which can be either purely mechanical (conformational change of the receptor induced after binding of the ligand), lipid-assisted (e.g., by raft lipids such as cholesterol or gangliosides), or in some instances of quantic nature (detection of odorant molecules). The aim of the present review is to challenge the old paradigms and present new concepts of membrane receptology that consider the impact of critical parameters such as water molecules, membrane lipids, electrostatic surface potential and quantum mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

25. A randomised phase II trial of a trivalent ganglioside vaccine targeting GM2, GD2 and GD3 combined with immunological adjuvant OPT-821 versus OPT-821 alone in metastatic sarcoma patients rendered disease-free by surgery.

Author

Rosenbaum, Evan, Chugh, Rashmi, Ryan, Christopher, Agulnik, Mark, Milhem, Mohammed, George, Suzanne, Jones, Robin, Chmielowski, Bartosz, Van Tine, Brian, Tawbi, Hussein, Elias, Anthony, Read, William, Budd, G, Qin, Li-Xuan, Rodler, Eve, Hirman, Joe, Weiden, Paul, Bennett, Cathryn, Livingston, Philip, Ragupathi, Govind, Hansen, David, DAngelo, Sandra, Tap, William, Schwartz, Gary, Maki, Robert, and Carvajal, Richard

Subjects

Adjuvant, Ganglioside, Sarcoma, Vaccine, Humans, Male, Female, G(M2) Ganglioside, Injection Site Reaction, Sarcoma, Vaccines, Adjuvants, Immunologic, Soft Tissue Neoplasms, Neoplasms, Second Primary

Abstract

BACKGROUND: Recurrence after resection of metastatic sarcoma is common. The gangliosides GM2, GD2 and GD3 are strongly expressed across sarcoma subtypes. We hypothesised that generation of anti-ganglioside antibodies would control micrometastases and improve outcomes in sarcoma patients who were disease-free after metastasectomy. METHODS: We conducted a randomised phase II trial of the immunological adjuvant OPT-821 with a KLH-conjugated ganglioside vaccine targeting GM2, GD2 and GD3, versus OPT-821 alone in patients with metastatic sarcoma following complete metastasectomy. Patients received 10 subcutaneous injections at Weeks 1, 2, 3, 8, 16, 28, 40, 52, 68 and 84 and were followed for evidence of recurrent disease. The primary end-point was relapse-free survival. Secondary end-points included overall survival and serologic response. RESULTS: A total of 136 patients were randomised, 68 to each arm. The mean age was 51.2, 52.2% were male, 90.4% had relapsed disease, 86.8% had high-grade tumours and 14% had ≥4 metastases resected. Histologies included leiomyosarcoma (33%), spindle cell sarcoma (14%), undifferentiated pleomorphic sarcoma (13%), osteosarcoma (10%), synovial sarcoma (9%), liposarcoma (9%) and others (12%). Most adverse events were Grade ≤2 (83.8% and 70.6% in the vaccine and adjuvant arms, respectively). The most common (≥20% of patients) were injection site reaction (89.7%), fatigue (44.1%) and pyrexia (27.9%) on the vaccine arm, and injection site reaction (69.1%) on the adjuvant only arm. The 1-year relapse-free survival rate (34.5% and 34.8% in the vaccine and OPT-821 monotherapy arm, respectively) did not differ between arms (P = 0.725). One-year overall survival rates were 93.1% and 91.5% in the vaccine and OPT-821 monotherapy arm, respectively (P = 0.578). Serologic responses at week 9 were more frequent on the vaccine arm (96.5% of patients) than in the adjuvant arm (32.8%), and the difference between groups was durable. CONCLUSIONS: A sustained serologic response to vaccination was induced with the vaccine, but no difference in recurrence-free or overall survival was observed between treatment arms. CLINICALTRIALS: gov identifier: NCT01141491.

Published

2022

26. 依达拉奉右莰醇与神经节苷脂改善急性脑梗死 神经功能的间接比较 Meta 分析.

Author

周 梦, 张卫芳, 张 赟, 吴方红, and 祝田田

Abstract

OBJECTIVE: To compare the improvement effect of edaravone dexborneol and ganglioside in improving neurological function in acute ischemic stroke. METHODS: Clinical randomized controlled trials ( the observation group was intervened by basic treatment combined with edaravone dexborneol or ganglioside, the control group was given basic treatment combined with edaravone) were retrieved from PubMed, the Cochrane Library, Embase, CNKI, VIP, Wanfang Data, SinoMed from base-building to Dec. 2021, systematic review was used to conduct quality assessment on studies met the inclusion criteria, RevMan 5. 4 software was used to perform Meta-analysis on the outcome indicators of the studies, indirect comparison method was used to compare the differences in efficacy of improving neurological function in acute cerebral infarction between edaravone dexborneol and ganglioside. RESULTS: A total of 7 studies were enrolled, including 1 741 patients. Results of direct Meta-analysis indicated that both ganglioside and edaravone dexborneol had better effect in improving National Institutes of Health Stroke Scale (NIHSS) scores than that of edaravone, with statistically significant differences (edaravone dexborneol vs. edaravone: MD= -0. 36,95%CI = -0. 66--0. 07,P = 0. 02; ganglioside vs. edaravone: MD = -0. 85,95%CI = -1. 51--0. 20,P = 0. 001); in terms of improving Barther index, the differences were not statistically significant (edaravone dexborneol vs. edaravone: RR = 1. 44,95% CI = 0. 70-3. 00,P = 0. 32; ganglioside vs. edaravone: MD = 3. 73,95% CI = -3. 80- 11. 27,P = 0. 33). By indirect comparison, it was known that the difference in the effect of improving NIHSS scores in patients with acute cerebral infarction between edaravone dexborneol and gangliosides was not statistically significant (MD= -0. 324 5,95%CI = -1. 203 2-0. 618 2,P>0. 05). In terms of safety, two edaravone dexborneol-related studies reported severe adverse events during treatment, and the difference in the incidence of severe adverse events between edaravone dexborneol and edaravone was not statistically significant (RR = 1. 48,95%CI = 0. 53-4. 17,P = 0. 45); no severe adverse events occurred in the rest studies. CONCLUSIONS: At present, limited evidence suggests that both edaravone dexborneol and ganglioside have better effects in improving neurological function in patients with acute cerebral infarction, and the difference between them is not significant. However, due to the small number of enrolled studies and the low quality, more high-quality direct comparative studies are needed to comprehensively assess the differences. [ABSTRACT FROM AUTHOR]

Published

2024

27. Filipin complex‐reactive brain lesions: A cautionary tale.

Author

Lau, Adeline A., Trim, Paul J., King, Barbara M., Hassiotis, Sofia, Hung, Ya Hui, Bush, Ashley I., Snel, Marten F., and Hemsley, Kim M.

Subjects

*BRAIN damage, *ALZHEIMER'S disease, *SANFILIPPO syndrome, *HUNTINGTON disease, *NIEMANN-Pick diseases, *FLUORESCENT antibody technique

Abstract

Objective: Filipin complex is an autooxidation‐prone fluorescent histochemical stain used in the diagnosis of Niemann‐Pick Disease Type C (NP‐C), a neurodegenerative lysosomal storage disorder. It is also widely used by researchers examining the distribution and accumulation of unesterified cholesterol in cell and animal models of neurodegenerative diseases including NP‐C and Sanfilippo syndrome (mucopolysaccharidosis IIIA; MPS IIIA). Recently, it has been suggested to be useful in studying Alzheimer's and Huntington's disease. Given filipin's susceptibility to photobleaching, we sought to establish a quantitative biochemical method for free cholesterol measurement. Methods: Brain tissue from mice with MPS IIIA was stained with filipin. Total and free cholesterol in brain homogenates was measured using a commercially available kit and a quantitative LC–MS/MS assay was developed. Gangliosides GM1, GM2 and GM3 were also quantified using LC–MS/MS. Results: As anticipated, the MPS IIIA mouse brain displayed large numbers of filipin‐positive intra‐cytoplasmic inclusions, presumptively endo‐lysosomes. Challenging the prevailing dogma, however, we found no difference in the amount of free cholesterol in MPS IIIA mouse brain homogenates cf. control tissue, using either the fluorometric kit or LC–MS/MS assay. Filipin has previously been reported to bind to GM1 ganglioside, however, this lipid does not accumulate in MPS IIIA cells/tissues. Using a fluorometric assay, we demonstrate for the first time that filipin cross‐reacts with both GM2 and GM3 gangliosides, explaining the filipin‐reactive inclusions observed in MPS IIIA brain cells. Conclusion: Filipin is not specific for free cholesterol, and positive staining in any setting should be interpreted with caution. [ABSTRACT FROM AUTHOR]

Published

2024

28. Lipid raft interacting galectin 8 regulates primary ciliogenesis.

Author

Syu, Jhan‐Jhang, Chang, Chieh‐Hsiang, Chang, Pei‐Yu, Liu, Chia‐Hsiung, Yu, Chia‐Jung, and Jou, Tzuu‐Shuh

Abstract

Primary cilium is a specialized sensory organelle that transmits environmental information into cells. Its length is tightly controlled by various mechanisms such as the frequency or the cargo size of the intraflagellar transport trains which deliver the building materials such as tubulin subunits essential for the growing cilia. Here, we show the sialoglycan interacting galectin 8 regulates the process of primary ciliogenesis. As the epithelia become polarized, there are more galectin 8 being apically secreted and these extracellular galectin 8 molecules apparently bind to a lipid raft enriched domain at the base of the primary cilia through interacting with lipid raft components, such as GD3 ganglioside and scaffold protein caveolin 1. Furthermore, the binding of galectin 8 at this critical region triggers rapid growth of primary cilia by perturbing the barrier function of the transition zone (TZ). Our study also demonstrates the functionality of this barrier depends on intact organization of lipid rafts at the cilia as genetically knockout of Cav1 and pharmacologically inhibition of lipid raft both phenocopy the effect of apical addition of recombinant galectin 8; that is, rapid elongation of primary cilia and redistribution of cilia proteins from TZ to the growing axoneme. Indeed, as cilia elongated, endogenous galectin 8, caveolin 1, and TZ component, TMEM231, also transited from the TZ to the growing axoneme. We also noted that the interaction between caveolin 1 and TMEM231 could be perturbed by exogenous galectin 8. Taken together, we proposed that galectin 8 promoted primary cilia elongation through impeding the barrier function of the TZ by interfering with the interaction between caveolin 1 and TMEM231.The transition zone (TZ) serves as a diffusion barrier for ciliary transport and constitutes a region on the ciliary membrane enriched in both ganglioside and lipid raft scaffold proteins such as caveolin 1 (Cav1). During ciliogenesis, extracellular galectin 8 (Gal8) accumulates at TZ presumably through its interaction with sialylated oligosaccharide such as GD3 and Cav1 to promote primary cilia elongation by perturbing the balanced interaction between Cav1 and TZ component transmembrane protein 231 (TMEM231). [ABSTRACT FROM AUTHOR]

Published

2023

29. Are There Lipid Membrane-Domain Subtypes in Neurons with Different Roles in Calcium Signaling?

Author

Samhan-Arias, Alejandro K., Poejo, Joana, Marques-da-Silva, Dorinda, Martínez-Costa, Oscar H., and Gutierrez-Merino, Carlos

Subjects

*CALCIUM channels, *MEMBRANE lipids, *LIPID rafts, *CELL membranes, *BLOOD proteins, *MEMBRANE proteins, *CALCIUM, *NEUROTRANSMITTER receptors, *AXONS

Abstract

Lipid membrane nanodomains or lipid rafts are 10–200 nm diameter size cholesterol- and sphingolipid-enriched domains of the plasma membrane, gathering many proteins with different roles. Isolation and characterization of plasma membrane proteins by differential centrifugation and proteomic studies have revealed a remarkable diversity of proteins in these domains. The limited size of the lipid membrane nanodomain challenges the simple possibility that all of them can coexist within the same lipid membrane domain. As caveolin-1, flotillin isoforms and gangliosides are currently used as neuronal lipid membrane nanodomain markers, we first analyzed the structural features of these components forming nanodomains at the plasma membrane since they are relevant for building supramolecular complexes constituted by these molecular signatures. Among the proteins associated with neuronal lipid membrane nanodomains, there are a large number of proteins that play major roles in calcium signaling, such as ionotropic and metabotropic receptors for neurotransmitters, calcium channels, and calcium pumps. This review highlights a large variation between the calcium signaling proteins that have been reported to be associated with isolated caveolin-1 and flotillin-lipid membrane nanodomains. Since these calcium signaling proteins are scattered in different locations of the neuronal plasma membrane, i.e., in presynapses, postsynapses, axonal or dendritic trees, or in the neuronal soma, our analysis suggests that different lipid membrane-domain subtypes should exist in neurons. Furthermore, we conclude that classification of lipid membrane domains by their content in calcium signaling proteins sheds light on the roles of these domains for neuronal activities that are dependent upon the intracellular calcium concentration. Some examples described in this review include the synaptic and metabolic activity, secretion of neurotransmitters and neuromodulators, neuronal excitability (long-term potentiation and long-term depression), axonal and dendritic growth but also neuronal cell survival and death. [ABSTRACT FROM AUTHOR]

Published

2023

30. Region-specific mouse brain ganglioside distribution revealed by an improved isobaric aminoxyTMT labeling strategy with automated data processing.

Author

Smith, Ryan A. and Zhang, Qibin

Subjects

*MEMBRANE lipids, *LIPID rafts, *CENTRAL nervous system, *ELECTRONIC data processing, *GANGLIOSIDES, *HYPOTHALAMUS

Abstract

Gangliosides are specialized glycosphingolipids most abundant in the central nervous system. Their complex amphiphilic structure is essential to the formation of membrane lipid rafts and for molecular recognition. Dysfunction of lipid rafts and ganglioside metabolism has been linked to cancer, metabolic disorders, and neurodegenerative disorders. Changes in ganglioside concentration and diversity during the progression of disease have made them potential biomarkers for early detection and shed light on disease mechanisms. Chemical derivatization facilitates whole ion analysis of gangliosides while improving ionization, providing rich fragmentation spectra, and enabling multiplexed analysis schemes such as stable isotope labeling. In this work, we report improvement to our previously reported isobaric labeling methodology for ganglioside analysis by increasing buffer concentration and removing solid-phase extraction desalting for a more complete and quantitative reaction. Identification and quantification of gangliosides are automated through MS-DIAL with an in-house ganglioside derivatives library. We have applied the updated methodology to relative quantification of gangliosides in six mouse brain regions (cerebellum, pons/medulla, midbrain, thalamus/hypothalamus, cortex, and basal ganglia) with 2 mg tissue per sample, and region-specific distributions of 88 ganglioside molecular species are described with ceramide isomers resolved. This method is promising for application to comparative analysis of gangliosides in biological samples. [ABSTRACT FROM AUTHOR]

Published

2023

31. Potential roles of gangliosides in chemical-induced neurodegenerative diseases and mental health disorders

Author

Yutaka Itokazu and Alvin V. Terry

Subjects

chemical warfare, cholinergic system, ganglioside, mental health disorder, neurodegenerative disease, neurotoxicity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2024

32. Naïve Huntington’s disease microglia mount a normal response to inflammatory stimuli but display a partially impaired development of innate immune tolerance that can be counteracted by ganglioside GM1

Author

Noam Steinberg, Danny Galleguillos, Asifa Zaidi, Melanie Horkey, and Simonetta Sipione

Subjects

Huntington’s disease, Q140/140 knock-in mice, Ganglioside, Neuroinflammation, LPS, TLR4, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Chronic activation and dysfunction of microglia have been implicated in the pathogenesis and progression of many neurodegenerative disorders, including Huntington’s disease (HD). HD is a genetic condition caused by a mutation that affects the folding and function of huntingtin (HTT). Signs of microglia activation have been observed in HD patients even before the onset of symptoms. It is unclear, however, whether pro-inflammatory microglia activation in HD results from cell-autonomous expression of mutant HTT, is the response of microglia to a diseased brain environment, or both. In this study, we used primary microglia isolated from HD knock-in (Q140) and wild-type (Q7) mice to investigate their response to inflammatory conditions in vitro in the absence of confounding effects arising from brain pathology. We show that naïve Q140 microglia do not undergo spontaneous pro-inflammatory activation and respond to inflammatory triggers, including stimulation of TLR4 and TLR2 and exposure to necrotic cells, with similar kinetics of pro-inflammatory gene expression as wild-type microglia. Upon termination of the inflammatory insult, the transcription of pro-inflammatory cytokines is tapered off in Q140 and wild-type microglia with similar kinetics. However, the ability of Q140 microglia to develop tolerance in response to repeated inflammatory stimulations is partially impaired in vitro and in vivo, potentially contributing to the establishment of chronic neuroinflammation in HD. We further show that ganglioside GM1, a glycosphingolipid with anti-inflammatory effects on wild-type microglia, not only decreases the production of pro-inflammatory cytokines and nitric oxide in activated Q140 microglia, but also dramatically dampen microglia response to re-stimulation with LPS in an experimental model of tolerance. These effects are independent from the expression of interleukin 1 receptor associated kinase 3 (Irak-3), a strong modulator of LPS signaling involved in the development of innate immune tolerance and previously shown to be upregulated by immune cell treatment with gangliosides. Altogether, our data suggest that external triggers are required for HD microglia activation, but a cell-autonomous dysfunction that affects the ability of HD microglia to acquire tolerance might contribute to the establishment of neuroinflammation in HD. Administration of GM1 might be beneficial to attenuate chronic microglia activation and neuroinflammation.

Published

2023

33. Disordered testosterone transport in mice lacking the ganglioside GM2/GD2 synthase gene

Author

Koichi Furukawa, Kogo Takamiya, Yuhsuke Ohmi, Robiul H. Bhuiyan, Orie Tajima, and Keiko Furukawa

Subjects

aspermatogenesis, ganglioside, knockout, male infertility, testis, testosterone, Biology (General), QH301-705.5

Abstract

Genetic disruption of glycosyltransferases has provided clear information on the roles of their reaction products in the body. Our group has studied the function of glycosphingolipids by genetic engineering of glycosyltransferases in cell culture and in mice, which has demonstrated both expected and unexpected results. Among these findings, aspermatogenesis in ganglioside GM2/GD2 synthase knockout mice was one of the most surprising and intriguing results. There were no sperms in testis, and multinuclear giant cells were detected instead of spermatids. Although serum levels of testosterone in the male mice were extremely low, testosterone accumulated in the interstitial tissues, including Leydig cells, and seemed not to be transferred into the seminiferous tubules or vascular cavity from Leydig cells. This was considered to be the cause of aspermatogenesis and low serum levels of testosterone. Patients with a mutant GM2/GD2 synthase gene (SPG26) showed similar clinical signs, not only in terms of the neurological aspects, but also in the male reproductive system. The mechanisms for testosterone transport by gangliosides are discussed here based on our own results and reports from other laboratories.

Published

2023

34. Lipid rafts and human diseases: why we need to target gangliosides

Author

Jacques Fantini

Subjects

Alzheimer, cancer, ganglioside, lipid raft, Parkinson, virus, Biology (General), QH301-705.5

Abstract

Gangliosides are functional components of membrane lipid rafts that control critical functions in cell communication. Many pathologies involve raft gangliosides, which therefore represent an approach of choice for developing innovative therapeutic strategies. Beginning with a discussion of what a disease is (and is not), this review lists the major human pathologies that involve gangliosides, which includes cancer, diabetes, and infectious and neurodegenerative diseases. In most cases, the problem is due to a protein whose binding to gangliosides either creates a pathological condition or impairs a physiological function. Then, I draw up an inventory of the different molecular mechanisms of protein‐ganglioside interactions. I propose to classify the ganglioside‐binding domains of proteins into four categories, which I name GBD‐1, GBD‐2, GBD‐3, and GBD‐4. This structural and functional classification could help to rationalize the design of innovative molecules capable of disrupting the binding of selected proteins to gangliosides without generating undesirable effects. The biochemical specificities of gangliosides expressed in the human brain must also be taken into account to improve the reliability of animal models (or any animal‐free alternative) of Alzheimer's and Parkinson's diseases.

Published

2023

35. A Novel Cytotoxic Mechanism for Triple-Negative Breast Cancer Cells Induced by the Type II Heat-Labile Enterotoxin LT-IIc through Ganglioside Ligation

Author

Natalie D. King-Lyons, Aryana S. Bhati, John C. Hu, Lorrie M. Mandell, Gautam N. Shenoy, Hugh J. Willison, and Terry D. Connell

Subjects

enterotoxin, triple-negative breast cancer, ADP-ribosylation, cAMP, ganglioside, Medicine

Abstract

Triple-negative breast cancer (TNBC), which constitutes 10–20 percent of all breast cancers, is aggressive, has high metastatic potential, and carries a poor prognosis due to limited treatment options. LT-IIc, a member of the type II subfamily of ADP-ribosylating—heat-labile enterotoxins that bind to a distinctive set of cell-surface ganglioside receptors—is cytotoxic toward TNBC cell lines, but has no cytotoxic activity for non-transformed breast epithelial cells. Here, primary TNBC cells, isolated from resected human tumors, showed an enhanced cytotoxic response specifically toward LT-IIc, in contrast to other enterotoxins that were tested. MDA-MB-231 cells, a model for TNBC, were used to evaluate potential mechanisms of cytotoxicity by LT-IIc, which induced elevated intracellular cAMP and stimulated the cAMP response element-binding protein (CREB) signaling pathway. To dissect the role of ADP-ribosylation, cAMP induction, and ganglioside ligation in the cytotoxic response, MDA-MB-231 cells were exposed to wild-type LT-IIc, the recombinant B-pentamer of LT-IIc that lacks the ADP-ribosylating A polypeptide, or mutants of LT-IIc with an enzymatically inactivated A1-domain. These experiments revealed that the ADP-ribosyltransferase activity of LT-IIc was nonessential for inducing the lethality of MDA-MB-231 cells. In contrast, a mutant LT-IIc with an altered ganglioside binding activity failed to trigger a cytotoxic response in MDA-MB-231 cells. Furthermore, the pharmacological inhibition of ganglioside expression protected MDA-MB-231 cells from the cytotoxic effects of LT-IIc. These data establish that ganglioside ligation, but not the induction of cAMP production nor ADP-ribosyltransferase activity, is essential to initiating the LT-IIc-dependent cell death of MDA-MB-231 cells. These experiments unveiled previously unknown properties of LT-IIc and gangliosides in signal transduction, offering the potential for the targeted treatment of TNBC, an option that is desperately needed.

Published

2024

36. Opposite Functions of Mono- and Disialylated Glycosphingo-Lipids on the Membrane of Cancer Cells

Author

Furukawa, Koichi, Ohmi, Yuhsuke, Yesmin, Farhana, Hamamura, Kazunori, Kondo, Yuji, Ohkawa, Yuki, Hashimoto, Noboru, Bhuiyan, Robiul H., Kaneko, Kei, Tajima, Orie, Furukawa, Keiko, Furukawa, Koichi, editor, and Fukuda, Minoru, editor

Published

2023

37. Functional Impairment of the Nervous System with Glycolipid Deficiencies

Author

Itokazu, Yutaka, Fuchigami, Takahiro, Yu, Robert K., Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

38. Synthesis of O-Linked Glycoconjugates in the Nervous System

Author

Inokuchi, Jin-Ichi, Go, Shinji, Hirabayashi, Yoshio, Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

39. Glycans and Carbohydrate-Binding/Transforming Proteins in Axon Physiology

Author

Abad-Rodríguez, José, Brocca, María Elvira, Higuero, Alonso Miguel, Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

40. Antibodies to Glycolipids in Guillain-Barré Syndrome, Miller Fisher Syndrome and Related Autoimmune Neurological Diseases

Author

Kusunoki, Susumu, Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

41. Ganglioside Microdomains on Cellular and Intracellular Membranes Regulate Neuronal Cell Fate Determination

Author

Itokazu, Yutaka, Yu, Robert K., Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

42. Neuronal Ganglioside and Glycosphingolipid (GSL) Metabolism and Disease : Cascades of Secondary Metabolic Errors Can Generate Complex Pathologies (in LSDs)

Author

Sandhoff, Roger, Sandhoff, Konrad, Schousboe, Arne, Series Editor, Schengrund, Cara-Lynne, editor, and Yu, Robert K., editor

Published

2023

43. Therapeutic effects of anti‐GM2 CAR‐T cells expressing IL‐7 and CCL19 for GM2‐positive solid cancer in xenograft model

Author

Takahiro Sasaki, Yukimi Sakoda, Keishi Adachi, Yoshihiro Tokunaga, and Koji Tamada

Subjects

CAR‐T cell, chemokine, cytokine, ganglioside, solid cancers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background While chimeric antigen receptor (CAR)‐T cell therapy has demonstrated excellent efficacy in hematopoietic malignancies, its clinical application in solid cancers has yet to be achieved. One of the reasons for such hurdle is a lack of suitable CAR targets in solid cancers. Methods GM2 is one of the gangliosides, a group of glycosphingolipids with sialic acid in the glycan, and overexpressed in various types of solid cancers. In this study, by using interleukin (IL)‐7 and chemokine (C‐C motif) ligand 19 (CCL19)‐producing human CAR‐T system which we previously developed, a possibility of GM2 as a solid tumor target for CAR‐T cell therapy was explored in a mouse model with human small‐cell lung cancer. Results Treatment with anti‐GM2 IL‐7/CCL19‐producing CAR‐T cells induced complete tumor regression along with an abundant T cell infiltration into the solid tumor tissue and long‐term memory responses, without any detectable adverse events. In addition, as measures to control cytokine‐release syndrome and neurotoxicity which could occur in association with clinical use of CAR‐T cells, we incorporated Herpes simplex virus‐thymidine kinase (HSV‐TK), a suicide system to trigger apoptosis by administration of ganciclovir (GCV). HSV‐TK‐expressing anti‐GM2 IL‐7/CCL19‐producing human CAR‐T cells were efficiently eliminated by GCV administration in vivo. Conclusions Our study revealed the promising therapeutic efficacy of anti‐GM2 IL‐7/CCL19‐producing human CAR‐T cells with an enhanced safety for clinical application in the treatment of patients with GM2‐positive solid cancers.

Published

2023

44. Naïve Huntington's disease microglia mount a normal response to inflammatory stimuli but display a partially impaired development of innate immune tolerance that can be counteracted by ganglioside GM1.

Author

Steinberg, Noam, Galleguillos, Danny, Zaidi, Asifa, Horkey, Melanie, and Sipione, Simonetta

Subjects

*HUNTINGTON disease, *IMMUNOLOGICAL tolerance, *MICROGLIA, *INFLAMMATION, *INTERLEUKIN receptors, *NECROSIS

Abstract

Chronic activation and dysfunction of microglia have been implicated in the pathogenesis and progression of many neurodegenerative disorders, including Huntington's disease (HD). HD is a genetic condition caused by a mutation that affects the folding and function of huntingtin (HTT). Signs of microglia activation have been observed in HD patients even before the onset of symptoms. It is unclear, however, whether pro-inflammatory microglia activation in HD results from cell-autonomous expression of mutant HTT, is the response of microglia to a diseased brain environment, or both. In this study, we used primary microglia isolated from HD knock-in (Q140) and wild-type (Q7) mice to investigate their response to inflammatory conditions in vitro in the absence of confounding effects arising from brain pathology. We show that naïve Q140 microglia do not undergo spontaneous pro-inflammatory activation and respond to inflammatory triggers, including stimulation of TLR4 and TLR2 and exposure to necrotic cells, with similar kinetics of pro-inflammatory gene expression as wild-type microglia. Upon termination of the inflammatory insult, the transcription of pro-inflammatory cytokines is tapered off in Q140 and wild-type microglia with similar kinetics. However, the ability of Q140 microglia to develop tolerance in response to repeated inflammatory stimulations is partially impaired in vitro and in vivo, potentially contributing to the establishment of chronic neuroinflammation in HD. We further show that ganglioside GM1, a glycosphingolipid with anti-inflammatory effects on wild-type microglia, not only decreases the production of pro-inflammatory cytokines and nitric oxide in activated Q140 microglia, but also dramatically dampen microglia response to re-stimulation with LPS in an experimental model of tolerance. These effects are independent from the expression of interleukin 1 receptor associated kinase 3 (Irak-3), a strong modulator of LPS signaling involved in the development of innate immune tolerance and previously shown to be upregulated by immune cell treatment with gangliosides. Altogether, our data suggest that external triggers are required for HD microglia activation, but a cell-autonomous dysfunction that affects the ability of HD microglia to acquire tolerance might contribute to the establishment of neuroinflammation in HD. Administration of GM1 might be beneficial to attenuate chronic microglia activation and neuroinflammation. [ABSTRACT FROM AUTHOR]

Published

2023

45. The Ying and Yang of Ganglioside Function in Cancer.

Author

Schengrund, Cara-Lynne

Subjects

*LIPID metabolism, *TUMOR treatment, *GROWTH factors, *METASTASIS, *CANCER patients, *CELLULAR signal transduction, *DRUG resistance in cancer cells

Abstract

Simple Summary: Gangliosides, sialylated glycosphingolipids, have been found to affect cell growth as a result of their effect on signaling pathways. An increasing number of studies have shown that cells isolated from different types of cancer may overexpress a specific ganglioside(s), which can affect the interaction of specific growth factors with their receptors, thereby altering cell behavior. As more is learned about the mechanisms by which gangliosides exert their positive or negative effects, it is anticipated that it will provide the basis for the development of treatments to inhibit the proliferation and/or metastasis of cancer cells. The plethora of information about the expression of cancer cell-associated gangliosides, their role(s) in signal transduction, and their potential usefulness in the development of cancer treatments makes this an appropriate time to review these enigmatic glycosphingolipids. Evidence, reflecting the work of many, indicates that (1) expression of specific gangliosides, not generally found in high concentrations in most normal human cells, can be linked to certain types of cancer. (2) Gangliosides can affect the ability of cells to interact either directly or indirectly with growth factor receptors, thereby changing such things as a cell's mobility, rate of proliferation, and metastatic ability. (3) Anti-ganglioside antibodies have been tested, with some success, as potential treatments for certain cancers. (4) Cancer-associated gangliosides shed into the circulation can (a) affect immune cell responsiveness either positively or negatively, (b) be considered as diagnostic markers, and (c) be used to look for recurrence. (5) Cancer registries enable investigators to evaluate data from sufficient numbers of patients to obtain information about potential therapies. Despite advances that have been made, a discussion of possible approaches to identifying additional treatment strategies to inhibit metastasis, responsible for the majority of deaths of cancer patients, as well as for treating therapy-resistant tumors, is included. [ABSTRACT FROM AUTHOR]

Published

2023

46. The cancer glycocode as a family of diagnostic biomarkers, exemplified by tumor-associated gangliosides.

Author

Nejatie, Ali, Yee, Samantha S., Jeter, Anna, and Saragovi, Horacio Uri

Subjects

TUMOR markers, GANGLIOSIDES, BIOMARKERS, NUCLEIC acids, CANCER diagnosis

Abstract

One unexploited family of cancer biomarkers comprise glycoproteins, carbohydrates, and glycolipids (the Tumor Glycocode).A class of glycolipid cancer biomarkers, the tumor-marker gangliosides (TMGs) are presented here as potential diagnostics for detecting cancer, especially at early stages, as the biological function of TMGs makes them etiological. We propose that a quantitative matrix of the Cancer Biomarker Glycocode and artificial intelligence-driven algorithms will expand the menu of validated cancer biomarkers as a step to resolve some of the challenges in cancer diagnosis, and yield a combination that can identify a specific cancer, in a tissue-agnostic manner especially at early stages, to enable early intervention. Diagnosis is critical to reducing cancer mortality but many cancers lack efficient and effective diagnostic tests, especially for early stage disease. Ideal diagnostic biomarkers are etiological, samples are preferably obtained via non-invasive methods (e.g. liquid biopsy of blood or urine), and are quantitated using assays that yield high diagnostic sensitivity and specificity for efficient diagnosis, prognosis, or predicting response to therapy. Validated biomarkers with these features are rare. While the advent of proteomics and genomics has led to the identification of a multitude of proteins and nucleic acid sequences as cancer biomarkers, relatively few have been approved for clinical use. The use of multiplex arrays and artificial intelligence-driven algorithms offer the option of combining data of known biomarkers; however, for most, the sensitivity and the specificity are below acceptable criteria, and clinical validation has proven difficult. One strategic solution to this problem is to expand the biomarker families beyond those currently exploited. One unexploited family of cancer biomarkers comprise glycoproteins, carbohydrates, and glycolipids (the Tumor Glycocode). Here, we focus on a family of glycolipid cancer biomarkers, the tumor-marker gangliosides (TMGs). We discuss the diagnostic potential of TMGs for detecting cancer, especially at early stages. We include prior studies from the literature to summarize findings for ganglioside quantification, expression, detection, and biological function and its role in various cancers. We highlight the examples of TMGs exhibiting ideal properties of cancer diagnostic biomarkers, and the application of GD2 and GD3 for diagnosis of early stage cancers with high sensitivity and specificity. We propose that a quantitative matrix of the Cancer Biomarker Glycocode and artificial intelligence-driven algorithms will expand the menu of validated cancer biomarkers as a step to resolve some of the challenges in cancer diagnosis, and yield a combination that can identify a specific cancer, in a tissue-agnostic manner especially at early stages, to enable early intervention. [ABSTRACT FROM AUTHOR]

Published

2023

47. Bioactive Functions of Lipids in the Milk Fat Globule Membrane: A Comprehensive Review.

Author

Pan, Junyu, Chen, Meiqing, Li, Ning, Han, Rongwei, Yang, Yongxin, Zheng, Nan, Zhao, Shengguo, and Zhang, Yangdong

Subjects

MILKFAT, LIPID rafts, LIPIDS, SPHINGOLIPIDS, AEROBIC capacity, PHOSPHOLIPIDS

Abstract

The milk fat globule membrane (MFGM) is a complex tri-layer membrane that wraps droplets of lipids in milk. In recent years, it has attracted widespread attention due to its excellent bioactive functions and nutritional value. MFGM contains a diverse array of bioactive lipids, including cholesterol, phospholipids, and sphingolipids, which play pivotal roles in mediating the bioactivity of the MFGM. We sequentially summarize the main lipid types in the MFGM in this comprehensive review and outline the characterization methods used to employ them. In this comprehensive review, we sequentially describe the types of major lipids found in the MFGM and outline the characterization methods employed to study them. Additionally, we compare the structural disparities among glycerophospholipids, sphingolipids, and gangliosides, while introducing the formation of lipid rafts facilitated by cholesterol. The focus of this review revolves around an extensive evaluation of the current research on lipid isolates from the MFGM, as well as products containing MFGM lipids, with respect to their impact on human health. Notably, we emphasize the clinical trials encompassing a large number of participants. The summarized bioactive functions of MFGM lipids encompass the regulation of human growth and development, influence on intestinal health, inhibition of cholesterol absorption, enhancement of exercise capacity, and anticancer effects. By offering a comprehensive overview, the aim of this review is to provide valuable insights into the diverse biologically active functions exhibited by lipids in the MFGM. [ABSTRACT FROM AUTHOR]

Published

2023

48. Biology of GD2 ganglioside: implications for cancer immunotherapy.

Author

Machy, Pierre, Mortier, Erwan, and Birklé, Stéphane

Subjects

BIOLOGY, IMMUNE checkpoint proteins, IMMUNOTHERAPY, CELL death, CENTRAL nervous system, BISPECIFIC antibodies, PROGRAMMED cell death 1 receptors, GLYCANS

Abstract

Part of the broader glycosphingolipid family, gangliosides are composed of a ceramide bound to a sialic acid-containing glycan chain, and locate at the plasma membrane. Gangliosides are produced through sequential steps of glycosylation and sialylation. This diversity of composition is reflected in differences in expression patterns and functions of the various gangliosides. Ganglioside GD2 designates different subspecies following a basic structure containing three carbohydrate residues and two sialic acids. GD2 expression, usually restrained to limited tissues, is frequently altered in various neuroectoderm-derived cancers. While GD2 is of evident interest, its glycolipid nature has rendered research challenging. Physiological GD2 expression has been linked to developmental processes. Passing this stage, varying levels of GD2, physiologically expressed mainly in the central nervous system, affect composition and formation of membrane microdomains involved in surface receptor signaling. Overexpressed in cancer, GD2 has been shown to enhance cell survival and invasion. Furthermore, binding of antibodies leads to immune-independent cell death mechanisms. In addition, GD2 contributes to T-cell dysfunction, and functions as an immune checkpoint. Given the cancer-associated functions, GD2 has been a source of interest for immunotherapy. As a potential biomarker, methods are being developed to quantify GD2 from patients' samples. In addition, various therapeutic strategies are tested. Based on initial success with antibodies, derivates such as bispecific antibodies and immunocytokines have been developed, engaging patient immune system. Cytotoxic effectors or payloads may be redirected based on anti-GD2 antibodies. Finally, vaccines can be used to mount an immune response in patients. We review here the pertinent biological information on GD2 which may be of use for optimizing current immunotherapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2023

49. Lipid rafts and human diseases: why we need to target gangliosides.

Author

Fantini, Jacques

Subjects

LIPID rafts, GANGLIOSIDES, ALZHEIMER'S disease, CELL communication, PARKINSON'S disease

Abstract

Gangliosides are functional components of membrane lipid rafts that control critical functions in cell communication. Many pathologies involve raft gangliosides, which therefore represent an approach of choice for developing innovative therapeutic strategies. Beginning with a discussion of what a disease is (and is not), this review lists the major human pathologies that involve gangliosides, which includes cancer, diabetes, and infectious and neurodegenerative diseases. In most cases, the problem is due to a protein whose binding to gangliosides either creates a pathological condition or impairs a physiological function. Then, I draw up an inventory of the different molecular mechanisms of protein‐ganglioside interactions. I propose to classify the ganglioside‐binding domains of proteins into four categories, which I name GBD‐1, GBD‐2, GBD‐3, and GBD‐4. This structural and functional classification could help to rationalize the design of innovative molecules capable of disrupting the binding of selected proteins to gangliosides without generating undesirable effects. The biochemical specificities of gangliosides expressed in the human brain must also be taken into account to improve the reliability of animal models (or any animal‐free alternative) of Alzheimer's and Parkinson's diseases. [ABSTRACT FROM AUTHOR]

Published

2023

50. Disordered testosterone transport in mice lacking the ganglioside GM2/GD2 synthase gene.

Author

Furukawa, Koichi, Takamiya, Kogo, Ohmi, Yuhsuke, Bhuiyan, Robiul H., Tajima, Orie, and Furukawa, Keiko

Subjects

CELL culture, TESTOSTERONE, LEYDIG cells, SEMINIFEROUS tubules, SPERMATOZOA, KNOCKOUT mice, GENETIC engineering

Abstract

Genetic disruption of glycosyltransferases has provided clear information on the roles of their reaction products in the body. Our group has studied the function of glycosphingolipids by genetic engineering of glycosyltransferases in cell culture and in mice, which has demonstrated both expected and unexpected results. Among these findings, aspermatogenesis in ganglioside GM2/GD2 synthase knockout mice was one of the most surprising and intriguing results. There were no sperms in testis, and multinuclear giant cells were detected instead of spermatids. Although serum levels of testosterone in the male mice were extremely low, testosterone accumulated in the interstitial tissues, including Leydig cells, and seemed not to be transferred into the seminiferous tubules or vascular cavity from Leydig cells. This was considered to be the cause of aspermatogenesis and low serum levels of testosterone. Patients with a mutant GM2/GD2 synthase gene (SPG26) showed similar clinical signs, not only in terms of the neurological aspects, but also in the male reproductive system. The mechanisms for testosterone transport by gangliosides are discussed here based on our own results and reports from other laboratories. [ABSTRACT FROM AUTHOR]

Published

2023