Your search keyword '"MERTK"' showing total 1,262 results

151. Beyond growth signaling: apoptotic sensor MERTK activates AKT by a novel mechanism

Author

Yanqiong Zhang, H. Shelton Earp, and Pengda Liu

Subjects

kidney cancer, drug resistance, mertk, akt, sav1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Canonically the oncogenic kinase AKT is activated by growth signals. Our work suggests apoptotic materials, abundant in tumors, also contribute to AKT activation by stimulating MERTK that in turn phosphorylates Y26 in the AKT PH domain. pY26 reverses binding of an AKT endogenous, WW-domain containing inhibitor, SAV1, allowing AKT responsiveness to classic growth signals. This novel mechanism may contribute to drug resistance.

Published

2019

152. Role of Myeloid-Epithelial-Reproductive Tyrosine Kinase and Macrophage Polarization in the Progression of Atherosclerotic Lesions Associated With Nonalcoholic Fatty Liver Disease

Author

Mirella Pastore, Stefania Grimaudo, Rosaria Maria Pipitone, Giulia Lori, Chiara Raggi, Salvatore Petta, and Fabio Marra

Subjects

monocytes, macrophages, nonalcoholic fatty liver disease, MerTK, inflammation, atherosclerosis, Therapeutics. Pharmacology, RM1-950

Abstract

Recent lines of evidence highlight the involvement of myeloid-epithelial-reproductive tyrosine kinase (MerTK) in metabolic disease associated with liver damage. MerTK is mainly expressed in anti-inflammatory M2 macrophages where it mediates transcriptional changes including suppression of proinflammatory cytokines and enhancement of inflammatory repressors. MerTK is regulated by metabolic pathways through nuclear sensors including LXRs, PPARs, and RXRs, in response to apoptotic bodies or to other sources of cholesterol. Nonalcoholic fatty liver disease (NAFLD) is one of the most serious public health problems worldwide. It is a clinicopathological syndrome closely related to obesity, insulin resistance, and oxidative stress. It includes a spectrum of conditions ranging from simple steatosis, characterized by hepatic fat accumulation with or without inflammation, to nonalcoholic steatohepatitis (NASH), defined by hepatic fat deposition with hepatocellular damage, inflammation, and accumulating fibrosis. Several studies support an association between NAFLD and the incidence of cardiovascular diseases including atherosclerosis, a major cause of death worldwide. This pathological condition consists in a chronic and progressive inflammatory process in the intimal layer of large- and medium-sized arteries. The complications of advanced atherosclerosis include chronic or acute ischemic damage in the tissue perfused by the affected artery, leading to cellular death. By identifying specific targets influencing lipid metabolism and cardiovascular-related diseases, the present review highlights the role of MerTK in NAFLD-associated atherosclerotic lesions as a potential innovative therapeutic target. Therapeutic advantages might derive from the use of compounds selective for nuclear receptors targeting PPARs rather than LXRs regulating macrophage lipid metabolism and macrophage mediated inflammation, by favoring the expression of MerTK, which mediates an immunoregulatory action with a reduction in inflammation and in atherosclerosis.

Published

2019

153. The Role of TAM Receptors in Bone.

Author

Engelmann J, Ragipoglu D, Ben-Batalla I, and Loges S

Subjects

Adult, Humans, Osteoblasts, Osteoclasts, Osteogenesis, Bone Diseases, Arthritis, Rheumatoid, Bone Resorption

Abstract

The TAM (TYRO3, MERTK, and AXL) family of receptor tyrosine kinases are pleiotropic regulators of adult tissue homeostasis maintaining organ integrity and self-renewal. Disruption of their homeostatic balance fosters pathological conditions like autoinflammatory or degenerative diseases including rheumatoid arthritis, lupus erythematodes, or liver fibrosis. Moreover, TAM receptors exhibit prominent cell-transforming properties, promoting tumor progression, metastasis, and therapy resistance in various cancer entities. Emerging evidence shows that TAM receptors are involved in bone homeostasis by regulating osteoblastic bone formation and osteoclastic bone resorption. Therefore, TAM receptors emerge as new key players of the regulatory cytokine network of osteoblasts and osteoclasts and represent accessible targets for pharmacologic therapy for a broad set of different bone diseases, including primary and metastatic bone tumors, rheumatoid arthritis, or osteoporosis.

Published

2023

154. Growth Arrest-Specific Factor 6 (GAS6) Is Increased in COVID-19 Patients and Predicts Clinical Outcome

Author

Albert Morales, Silvia Rojo Rello, Helena Cristóbal, Aida Fiz-López, Elisa Arribas, Montserrat Marí, Anna Tutusaus, Paloma de la Cal-Sabater, Gerry A.F. Nicolaes, José T. Ortiz-Pérez, David Bernardo, and Pablo García de Frutos

Subjects

COVID-19, AXL, MERTK, GAS6, viral infection, immune response, Biology (General), QH301-705.5

Abstract

Background: Growth arrest-specific factor 6 (GAS6) and the Tyro3, AXL, and MERTK (TAM) receptors counterbalance pro-inflammatory responses. AXL is a candidate receptor for SARS-CoV-2, particularly in the respiratory system, and the GAS6/AXL axis is targeted in current clinical trials against COVID-19. However, GAS6 and TAMs have not been evaluated in COVID-19 patients at emergency admission. Methods: Plasma GAS6, AXL, and MERTK were analyzed in 132 patients consecutively admitted to the emergency ward during the first peak of COVID-19. Results: GAS6 levels were higher in the SARS-CoV-2-positive patients, increasing progressively with the severity of the disease. Patients with initial GAS6 at the highest quartile had the worst outcome, with a 3-month survival of 65%, compared to a 90% survival for the rest. Soluble AXL exhibited higher plasma concentration in deceased patients, without significant differences in MERTK among SARS-CoV-2-positive groups. GAS6 mRNA was mainly expressed in alveolar cells and AXL in airway macrophages. Remarkably, THP-1 human macrophage differentiation neatly induces AXL, and its inhibition (bemcentinib) reduced cytokine production in human macrophages after LPS challenge. Conclusions: Plasma GAS6 and AXL levels reflect COVID-19 severity and could be early markers of disease prognosis, supporting a relevant role of the GAS6/AXL system in the immune response in COVID-19.

Published

2021

155. Synergistic Interaction of Tubby and Tubby-Like Protein 1 (Tulp1)

Author

Caberoy, Nora Blanca, Lambris, John D., Series editor, Ash, John D., editor, Grimm, Christian, editor, Hollyfield, Joe G., editor, Anderson, Robert E., editor, LaVail, Matthew M., editor, and Bowes Rickman, Catherine, editor

Published

2014

156. Calreticulin and Galectin-3 Opsonise Bacteria for Phagocytosis by Microglia.

Author

Cockram, Tom O. J., Puigdellívol, Mar, and Brown, Guy C.

Subjects

GALECTINS, CALRETICULIN, PHAGOCYTOSIS, MICROGLIA, PATTERN perception receptors

Abstract

Opsonins are soluble, extracellular proteins, released by activated immune cells, and when bound to a target cell, can induce phagocytes to phagocytose the target cell. There are three known classes of opsonin: antibodies, complement factors and secreted pattern recognition receptors, but these have limited access to the brain. We identify here two novel opsonins of bacteria, calreticulin, and galectin-3 (both lectins that can bind lipopolysaccharide), which were released by microglia (brain-resident macrophages) when activated by bacterial lipopolysaccharide. Calreticulin and galectin-3 both bound to Escherichia coli , and when bound increased phagocytosis of these bacteria by microglia. Furthermore, lipopolysaccharide-induced microglial phagocytosis of E. coli bacteria was partially inhibited by: sugars, an anti-calreticulin antibody, a blocker of the calreticulin phagocytic receptor LRP1, a blocker of the galectin-3 phagocytic receptor MerTK, or simply removing factors released from the microglia, indicating this phagocytosis is dependent on extracellular calreticulin and galectin-3. Thus, calreticulin and galectin-3 are opsonins, released by activated microglia to promote clearance of bacteria. This innate immune response of microglia may help clear bacterial infections of the brain. [ABSTRACT FROM AUTHOR]

Published

2019

157. Macrocyclic effect on inhibitory activity: a modeling study on MerTK inhibitors.

Author

Bhujbal, Swapnil P., Keretsu, Seketoulie, Balasubramanian, Pavithra K., and Cho, Seung Joo

Abstract

Macrocyclic ring structures could have drug-like properties such as membrane permeability, metabolic stability, binding affinity, selectivity, and high-biological activities. Synthesized macrocyclic inhibitors have been studied and the effect of ring size has gained attention from drug design community. Marsault et al. showed a positive correlation between ring size and inhibitory activity against rennin. On the other hand, De Clercq et al. suggested that there would be some optimum ring size for histone deacetylase inhibitory activity. Therefore, macrocyclic effects appear elusive while intriguing. In this study, we have selected a large set of macrocyclic inhibitors (14–20-membered rings) to study macrocyclic effect on MerTK using molecular modeling techniques. We carefully positioned all the cyclic inhibitors into the binding pocket utilizing available information obtained from both experimental and theoretical means. Then, from the resultant binding poses, the ligand–receptor interactions were analyzed. Unlike previous reports, we could not observe any relevance between ring size and inhibitory activity. However, there is a correlation between the number of hydrogen bonds and inhibitory activity. Among these hydrogen-bonding interactions, active site residues Arg727, and Asn728 as well as two signature interactions at the hinge region were found to be crucial for MerTK inhibition. Furthermore, the importance of number of hydrogen bonding was further validated statistically by means of 3D-QSAR techniques such as CoMFA and CoMSIA. The involvement of Arg727 and Asn728 was checked graphically by CoMSIA hydrogen-bonding donor map. This outcome could be helpful for more potent MerTK inhibitor design. In addition, more detailed studies on ring size effect would be desirable to understand macrocyclic effects. [ABSTRACT FROM AUTHOR]

Published

2019

158. Angiotensin II deteriorates advanced atherosclerosis by promoting MerTK cleavage and impairing efferocytosis through the AT1R/ROS/p38 MAPK/ADAM17 pathway.

Author

Yan Zhang, Ying Wang, Dong Zhou, Li-Sha Zhang, Fu-Xue Deng, Shan Shu, Li-Jun Wang, Yue Wu, Ning Guo, Juan Zhou, and Zu-Yi Yuan

Subjects

*ANGIOTENSIN II, *ATHEROSCLEROSIS, *ACUTE coronary syndrome, *APOLIPOPROTEIN E, *PROTEIN-tyrosine kinases, *HIGH-fat diet

Abstract

Vulnerable plaques in advanced atherosclerosis have defective efferocytosis. The role of ANG II in the progression of atherosclerosis is not fully understood. Herein, we investigated the effects and the underlying mechanisms of ANG II on macrophage efferocytosis in advanced atherosclerosis. ANG II decreased the surface expression of Mer tyrosine kinase (MerTK) in macrophages through a disintegrin and metalloproteinase17 (ADAM17)-mediated shedding of the soluble form of MerTK (sMer) in the medium, which led to efferocytosis suppression. ANG II-activated ADAM17 required reactive oxygen species (ROS) and p38 MAPK phosphorylation. Selective angiotensin II type 1 receptor (AT1R) blocker losartan suppressed ROS production, and ROS scavenger N-acetyl-L-cysteine (NAC) prevented p38 MAPK phosphorylation. In addition, mutant MERTKΔ483-488 was resistant to ANG II-induced MerTK shedding and efferocytosis suppression. The advanced atherosclerosis model that is characterized by larger necrotic cores, and less collagen content was established by feeding apolipoprotein E knockout (ApoE-/-) mice with a high-fat diet for 16 wk. NAC and losartan oral administration prevented atherosclerotic lesion progression. Meanwhile, the inefficient efferocytosis represented by decreased macrophage-associated apoptotic cells and decreased MerTK+CD68+double-positive macrophages in advanced atherosclerosis were prevented by losartan and NAC. Additionally, the serum levels of sMer were increased and positively correlated with the upregulated levels of ANG II in acute coronary syndrome (ACS) patients. In conclusion, ANG II promotes MerTK shedding via AT1R/ROS/p38 MAPK/ADAM17 pathway in macrophages, which led to defective efferocytosis and atherosclerosis progression. Defining the molecular mechanisms of defective efferocytosis may provide a promising prognosis and therapy for ACS patients. [ABSTRACT FROM AUTHOR]

Published

2019

159. TAM receptors in cardiovascular disease.

Author

McShane, Lucy, Tabas, Ira, Lemke, Greg, Kurowska-Stolarska, Mariola, and Maffia, Pasquale

Subjects

*HYPERTROPHY, *ATHEROSCLEROTIC plaque, *CARDIOVASCULAR diseases, *SORAFENIB, *MEDICAL sciences, *BONE marrow cells, *CYTOLOGY, *CARDIOVASCULAR system

Published

2019

160. Role of Myeloid-Epithelial-Reproductive Tyrosine Kinase and Macrophage Polarization in the Progression of Atherosclerotic Lesions Associated With Nonalcoholic Fatty Liver Disease.

Author

Pastore, Mirella, Grimaudo, Stefania, Pipitone, Rosaria Maria, Lori, Giulia, Raggi, Chiara, Petta, Salvatore, and Marra, Fabio

Subjects

FATTY liver, PROTEIN-tyrosine kinases, NUCLEAR receptors (Biochemistry), APOPTOTIC bodies, LIPID metabolism, CARDIOVASCULAR diseases

Abstract

Recent lines of evidence highlight the involvement of myeloid-epithelial-reproductive tyrosine kinase (MerTK) in metabolic disease associated with liver damage. MerTK is mainly expressed in anti-inflammatory M2 macrophages where it mediates transcriptional changes including suppression of proinflammatory cytokines and enhancement of inflammatory repressors. MerTK is regulated by metabolic pathways through nuclear sensors including LXRs, PPARs, and RXRs, in response to apoptotic bodies or to other sources of cholesterol. Nonalcoholic fatty liver disease (NAFLD) is one of the most serious public health problems worldwide. It is a clinicopathological syndrome closely related to obesity, insulin resistance, and oxidative stress. It includes a spectrum of conditions ranging from simple steatosis, characterized by hepatic fat accumulation with or without inflammation, to nonalcoholic steatohepatitis (NASH), defined by hepatic fat deposition with hepatocellular damage, inflammation, and accumulating fibrosis. Several studies support an association between NAFLD and the incidence of cardiovascular diseases including atherosclerosis, a major cause of death worldwide. This pathological condition consists in a chronic and progressive inflammatory process in the intimal layer of large- and medium-sized arteries. The complications of advanced atherosclerosis include chronic or acute ischemic damage in the tissue perfused by the affected artery, leading to cellular death. By identifying specific targets influencing lipid metabolism and cardiovascular-related diseases, the present review highlights the role of MerTK in NAFLD-associated atherosclerotic lesions as a potential innovative therapeutic target. Therapeutic advantages might derive from the use of compounds selective for nuclear receptors targeting PPARs rather than LXRs regulating macrophage lipid metabolism and macrophage mediated inflammation, by favoring the expression of MerTK, which mediates an immunoregulatory action with a reduction in inflammation and in atherosclerosis. [ABSTRACT FROM AUTHOR]

Published

2019

161. MerTK Downregulates Lipopolysaccharide-Induced Inflammation Through SOCS1 Protein but Does Not Affect Phagocytosis of Escherichia coli in Macrophages.

Author

Zhang, Bing, Lu, HuiYu, Jiang, AiGui, Wu, HuiMei, Fang, Lei, and Lv, YuXin

Subjects

*PHAGOCYTOSIS, *ESCHERICHIA coli, *PERITONEAL macrophages, *MACROPHAGES, *PROTEIN-tyrosine kinases

Abstract

Bacterial lipopolysaccharide (LPS) induces inflammatory response via toll-like receptor 4 (TLR4). However, this response must be strictly regulated because unbalanced overproduction of pro-inflammatory cytokines can lead to tissue damage and even be fatal. Herein, we explore whether Mer receptor tyrosine kinase (MerTK) regulates Escherichia coli (E. coli) LPS-induced inflammation and mediates phagocytosis of E. coli by macrophages. The results showed that LPS activated TLR4 signaling pathway and induced MerTK pathway in RAW264.7 macrophages, including suppressor of cytokine signaling1 (SOCS1). Preincubation with MerTK-specific blocking antibody (MerTK-Ab) markedly suppressed LPS-induced expression of phosphorylated MerTK, while further promoted LPS-induced production of TNF-α, IL-6, and IL-1β as well as phosphorylation of IκB-α and p65. Likewise, MerTK-Ab prevented LPS-induced SOCS1 expression. Furthermore, LPS-induced production of pro-inflammatory cytokines and activation of NF-κB were increased by transfection with SOCS1 siRNA. Additionally, we demonstrated that MerTK was dispensable in phagocytosis of E. coli by RAW264.7 or peritoneal macrophages. Collectively, these results indicate that MerTK downregulates LPS-induced inflammation through SOCS1 protein without affecting phagocytosis of E. coli in macrophages. [ABSTRACT FROM AUTHOR]

Published

2019

162. MERTK Inhibition: Potential as a Treatment Strategy in EGFR Tyrosine Kinase Inhibitor-Resistant Non-Small Cell Lung Cancer

Author

Chao-Ju Chen and Yu-Peng Liu

Subjects

EGFR-TKI resistance, non-small cell lung cancer, MERTK, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Epidermal growth factor tyrosine kinase inhibitors (EGFR-TKIs) are currently the most effective treatment for non-small cell lung cancer (NSCLC) patients, who carry primary EGFR mutations. However, the patients eventually develop drug resistance to EGFR-TKIs after approximately one year. In addition to the acquisition of the EGFR T790M mutation, the activation of alternative receptor-mediated signaling pathways is a common mechanism for conferring the insensitivity of EGFR-TKI in NSCLC. Upregulation of the Mer receptor tyrosine kinase (MERTK), which is a member of the Tyro3-Axl-MERTK (TAM) family, is associated with a poor prognosis of many cancers. The binding of specific ligands, such as Gas6 and PROS1, to MERTK activates phosphoinositide 3-kinase (PI3K)/Akt and mitogen-activated protein kinase (MAPK) cascades, which are the signaling pathways shared by EGFR. Therefore, the inhibition of MERTK can be considered a new therapeutic strategy for overcoming the resistance of NSCLC to EGFR-targeted agents. Although several small molecules and monoclonal antibodies targeting the TAM family are being developed and have been described to enhance the chemosensitivity and converse the resistance of EGFR-TKI, few have specifically been developed as MERTK inhibitors. The further development and investigation of biomarkers which can accurately predict MERTK activity and the response to MERTK inhibitors and MERTK-specific drugs are vitally important for obtaining appropriate patient stratification and increased benefits in clinical applications.

Published

2021

163. Tomentosin suppressed M1 polarization via increasing MERTK activation mediated by regulation of GAS6.

Author

Di, Yu-xi, Bao, Yu-jie, Zhu, Zhi-qi, Sun, Shan-liang, Tian, Feng-xiang, Wang, Fu-rong, Yu, Ge, Zhang, Ming-fei, Han, Jing, and Zhou, Ling-ling

Subjects

*PHYTOTHERAPY, *COLLAGEN, *IN vitro studies, *IN vivo studies, *ANTI-inflammatory agents, *ANIMAL experimentation, *MACROPHAGES, *CELL receptors, *GENE expression, *SEVERITY of illness index, *RHEUMATOID arthritis, *PROTEIN-tyrosine kinases, *TUMOR necrosis factors, *PLANT extracts, *COMPUTER-assisted molecular modeling, *MICE

Abstract

Xanthium sibiricum Patrin ex Widder (X. sibiricum) are widely used traditional herbal medicines for arthritis treatment in China. Rheumatoid arthritis (RA) is characterized by progressive destructions of joints, which is accompanied by chronic, progressive inflammatory disorder. According to our previous research, tomentosin was isolated from X. sibiricum and revealed anti-inflammatory activity. However, the potential therapeutic effect of tomentosin on RA and the anti-inflammatory mechanism of tomentosin remain to be clarified. The present study lays theoretical support for X. sibiricum in RA treatment, also provides reference for further development of X. sibiricum in clinic. To investigate the effect of tomentosin in collagen-induced arthritis (CIA) mice and reveal its underlying mechanism. In vivo , tomentosin (10, 20 and 40 mg/kg) was given to CIA mice for seven consecutive days, to evaluate its therapeutic effect and anti-inflammatory activity. In vitro , THP-1-derived macrophages were used to verify the effect of tomentosin on inflammation. Then, molecular docking and experiments in vitro was conducted to predict and explore the mechanism of tomentosin inhibiting inflammation. Tomentosin attenuated the severity of arthritis in CIA mice, which was evidenced by the swelling of the hind paws, arthritis scores, and pathological changes. Particularly, tomentosin effectively reduced the ratio of M1 macrophage and TNF-α levels in vitro and vivo. Then, molecular docking and experiments in vitro was carried out, indicating that tomentosin inhibited M1 polarization and TNF-α levels accompanied by the increase of MERTK and up-regulated GAS6 levels. Moreover, it has been proved that GAS6 was necessary for MERTK activation and tomentosin could up-regulate GAS6 levels effectively in transwell system. Further mechanistic studies revealed that tomentosin suppressed M1 polarization via increasing MERTK activation mediated by regulation of GAS6 in transwell system. Tomentosin relieved the severity of CIA mice by inhibiting M1 polarization. Furthermore, tomentosin suppressed M1 polarization via increasing MERTK activation mediated by regulation of GAS6. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

164. Intrinsic disorder may drive the interaction of PROS1 and MERTK in uveal melanoma.

Author

Djulbegovic, Mak, Taylor Gonzalez, David J., Antonietti, Michael, Uversky, Vladimir N., Shields, Carol L., and Karp, Carol L.

Subjects

*PROTEIN domains, *GENE silencing, *MELANOMA, *PROTEIN S, *PROTEIN structure, *MUSCARINIC receptors, *PROTEIN-protein interactions

Abstract

Class 2 uveal melanomas are associated with the inactivation of the BRCA1 ((breast cancer type 1 susceptibility protein)-associated protein 1 (BAP1)) gene. Inactivation of BAP1 promotes the upregulation of vitamin K-dependent protein S (PROS1), which interacts with the tyrosine-protein kinase Mer (MERTK) receptor on M2 macrophages to induce an immunosuppressive environment. We simulated the interaction of PROS1 with MERTK with ColabFold. We evaluated PROS1 and MERTK for the presence of intrinsically disordered protein regions (IDPRs) and disorder-to-order (DOT) regions to understand their protein-protein interaction (PPI). We first evaluated the structure of each protein with AlphaFold. We then analyzed specific sequence-based features of the PROS1 and MERTK with a suite of bioinformatics tools. With high-resolution, moderate confidence, we successfully modeled the interaction between PROS1 and MERTK (predicted local distance difference test score (pDLLT) = 70.68). Our structural analysis qualitatively demonstrated IDPRs (i.e., spaghetti-like entities) in PROS1 and MERK. PROS1 was 23.37 % disordered, and MERTK was 23.09 % disordered, classifying them as moderately disordered and flexible proteins. PROS1 was significantly enriched in cysteine, the most order-promoting residue (p -value <0.05). Our IUPred analysis demonstrated that there are two disorder-to-order transition (DOT) regions in PROS1. MERTK was significantly enriched in proline, the most disorder-promoting residue (p -value <0.05), but did not contain DOT regions. Our STRING analysis demonstrated that the PPI network between PROS1 and MERTK is more complex than their assumed one-to-one binding (p -value <2.0 × 10−6). Our findings present a novel prediction for the interaction between PROS1 and MERTK. Our findings show that PROS1 and MERTK contain elements of intrinsic disorder. PROS1 has two DOT regions that are attractive immunotherapy targets. We recommend that IDPRs and DOT regions found in PROS1 and MERTK should be considered when developing immunotherapies targeting this PPI. • Class 2 uveal melanomas are associated with the inactivation of the BAP1 gene. • BAP1 inactivation leads to the upregulation of PROS1. • PROS1 interacts with MERTK to induce a tumor immune microenvironment. • Intrinsically disordered protein domains are likely involved in this interaction. • Disorder-to-order transition regions in PROS1 are attractive targets for immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

165. Stress induces behavioral abnormalities by increasing expression of phagocytic receptor MERTK in astrocytes to promote synapse phagocytosis.

Author

Byun, Youkyeong Gloria, Kim, Nam-Shik, Kim, Gyuri, Jeon, Yi-Seon, Choi, Jong Bin, Park, Chan-Woo, Kim, Kyungdeok, Jang, Hyunsoo, Kim, Jinkyeong, Kim, Eunjoon, Han, Yong-Mahn, Yoon, Ki-Jun, Lee, Seung-Hee, and Chung, Won-Suk

Subjects

*SYNAPSES, *ASTROCYTES, *PHYSIOLOGY, *PHAGOCYTOSIS, *ACTION potentials

Abstract

Childhood neglect and/or abuse can induce mental health conditions with unknown mechanisms. Here, we identified stress hormones as strong inducers of astrocyte-mediated synapse phagocytosis. Using in vitro , in vivo , and human brain organoid experiments, we showed that stress hormones increased the expression of the Mertk phagocytic receptor in astrocytes through glucocorticoid receptor (GR). In post-natal mice, exposure to early social deprivation (ESD) specifically activated the GR-MERTK pathway in astrocytes, but not in microglia. The excitatory post-synaptic density in cortical regions was reduced in ESD mice, and there was an increase in the astrocytic engulfment of these synapses. The loss of excitatory synapses, abnormal neuronal network activities, and behavioral abnormalities in ESD mice were largely prevented by ablating GR or MERTK in astrocytes. Our work reveals the critical roles of astrocytic GR-MERTK activation in evoking stress-induced abnormal behaviors in mice, suggesting GR-MERTK signaling as a therapeutic target for stress-induced mental health conditions. [Display omitted] • Stress hormones induce astrocyte-mediated phagocytosis through GR-MERTK activation • Astrocytic GR-MERTK activation induces excitatory synapse loss in ESD model mice • ESD model mice show abnormal behaviors with increased cortical neuronal firing • Ablating GR-MERTK in astrocytes prevents ESD-evoked synapse loss and behavior symptoms Early social deprivation induces synaptic and behavioral deficits by unknown mechanisms. Byun et al. reveal that stress hormones induce excessive excitatory synapse elimination via the astrocytic GR-MERTK pathway. Ablating GR-MERTK from astrocytes prevents the loss of excitatory synapses, abnormal neuronal firing, and behavioral symptoms in ESD mice, emphasizing the critical roles of astrocytic phagocytosis in brain physiology and animal behavior. [ABSTRACT FROM AUTHOR]

Published

2023

166. Study on relation between the phagocytic fuction of retinal pigment epithelial cells and MERTK-Ras-myosin signal pathway

Author

Yu-Zhao Sun, Ruo-Shuang Zhang, and Feng Gu

Subjects

retinal pigment epithelium, phagocytosis, MERTK, Ras, myosin, Ophthalmology, RE1-994

Abstract

AIM:To investigate relation between the phagocytic fuction of retinal pigment epithelial(RPE)cells and the signal transduction pathway of MERTK-Ras-extracellular signal regulated kinase kinase(MEK)-myosin light chain kinase(MLCK)-myosin. METHODS: Cultured 3～5 passage RPE cells of C57BL/6 mouse were incubated with rod outer segments(ROS)suspension(containing ROS 1×107 /ml)at 37℃, then cells were rinsed at different times(30,60,120,180,240min)to terminate the phagocytosis. The kinetics of phagocytosis was measured by double-fluorescent labeling. The activity levels of MERTK, Ras, MEK and MLCK at different incubation times were measured by Western Blot with antibodies of MERTK, Ras and phospho-antibodies of MEK and MLCK, respectively. To repeat the measurement of the phagpcytic kinetics and activity levels of MERTK, Ras, MEK and MLCK at different incubation times after interference to Ras and Mertk gene in RPE cells by plasmid transfection.RESULTS: The phagocytic kinetics showed that the ingestion occurred at 30min of incubation. Ingested ROS by RPE cells increased until saturated at 180min. The protein levels of MERTK, Ras, MEK and MLCK in RPE cells increased during all the incubation periods compared with control group(PPCONCLUSION: Ras-MEK-MLCK-myosin signal pathway is the downstream of MERTK receptor in the phagocytic process of RPE cells from mice.

Published

2016

167. Crystal Structure of the Kinase Domain of MerTK in Complex with AZD7762 Provides Clues for Structure-Based Drug Development

Author

Tae Hyun Park, Seung-Hyun Bae, Seoung Min Bong, Seong Eon Ryu, Hyonchol Jang, and Byung Il Lee

Subjects

MerTK, AZD7762, TAM family kinase, X-ray crystallography, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Aberrant tyrosine-protein kinase Mer (MerTK) expression triggers prosurvival signaling and contributes to cell survival, invasive motility, and chemoresistance in many kinds of cancers. In addition, recent reports suggested that MerTK could be a primary target for abnormal platelet aggregation. Consequently, MerTK inhibitors may promote cancer cell death, sensitize cells to chemotherapy, and act as new antiplatelet agents. We screened an inhouse chemical library to discover novel small-molecule MerTK inhibitors, and identified AZD7762, which is known as a checkpoint-kinase (Chk) inhibitor. The inhibition of MerTK by AZD7762 was validated using an in vitro homogeneous time-resolved fluorescence (HTRF) assay and through monitoring the decrease in phosphorylated MerTK in two lung cancer cell lines. We also determined the crystal structure of the MerTK:AZD7762 complex and revealed the binding mode of AZD7762 to MerTK. Structural information from the MerTK:AZD7762 complex and its comparison with other MerTK:inhibitor structures gave us new insights for optimizing the development of inhibitors targeting MerTK.

Published

2020

168. Role of Vitamin K-Dependent Factors Protein S and GAS6 and TAM Receptors in SARS-CoV-2 Infection and COVID-19-Associated Immunothrombosis

Author

Anna Tutusaus, Montserrat Marí, José T. Ortiz-Pérez, Gerry A. F. Nicolaes, Albert Morales, and Pablo García de Frutos

Subjects

AXL, MERTK, GAS6, viral infection, coagulation, endothelium, Cytology, QH573-671

Abstract

The vitamin K-dependent factors protein S (PROS1) and growth-arrest-specific gene 6 (GAS6) and their tyrosine kinase receptors TYRO3, AXL, and MERTK, the TAM subfamily of receptor tyrosine kinases (RTK), are key regulators of inflammation and vascular response to damage. TAM signaling, which has largely studied in the immune system and in cancer, has been involved in coagulation-related pathologies. Because of these established biological functions, the GAS6-PROS1/TAM system is postulated to play an important role in SARS-CoV-2 infection and progression complications. The participation of the TAM system in vascular function and pathology has been previously reported. However, in the context of COVID-19, the role of TAMs could provide new clues in virus-host interplay with important consequences in the way that we understand this pathology. From the viral mimicry used by SARS-CoV-2 to infect cells, to the immunothrombosis that is associated with respiratory failure in COVID-19 patients, TAM signaling seems to be involved at different stages of the disease. TAM targeting is becoming an interesting biomedical strategy, which is useful for COVID-19 treatment now, but also for other viral and inflammatory diseases in the future.

Published

2020

169. Mertk Interacts with Tim-4 to Enhance Tim-4-Mediated Efferocytosis

Author

Byeongjin Moon, Juyeon Lee, Sang-Ah Lee, Chanhyuk Min, Hyunji Moon, Deokhwan Kim, Susumin Yang, Heera Moon, Jaeseon Jeon, Young-Eun Joo, and Daeho Park

Subjects

efferocytosis, Tim-4, Mertk, engulfment, apoptosis, phosphatidylserine, Cytology, QH573-671

Abstract

Apoptotic cells expressing phosphatidylserine (PS) on their cell surface are directly or indirectly recognized by phagocytes through PS-binding proteins. The PS-binding protein Tim-4 secures apoptotic cells to phagocytes to facilitate the engulfment of apoptotic cells. However, the molecular mechanism by which Tim-4 transduces signals to phagocytes during Tim-4-mediated efferocytosis is incompletely understood. Here, we report that Tim-4 collaborates with Mertk during efferocytosis through a biochemical interaction with Mertk. Proximal localization between the two proteins in phagocytes was observed by immunofluorescence and proximal ligation assays. Physical association between Tim-4 and Mertk, which was mediated by an interaction between the IgV domain of Tim-4 and the fibronectin type-III domain of Mertk, was also detected with immunoprecipitation. Furthermore, the effect of Mertk on Tim-4-mediated efferocytosis was abolished by GST-MertkFnIII, a soluble form of the fibronectin type-III domain of Mertk that disrupts the interaction between Tim-4 and Mertk. Taken together, the results from our study suggest that a physical interaction between Tim-4 and Mertk is necessary for Mertk to enhance efferocytosis mediated by Tim-4.

Published

2020

170. Galectin-3 Stimulates Tyro3 Receptor Tyrosine Kinase and Erk Signalling, Cell Survival and Migration in Human Cancer Cells

Author

Nour Al Kafri and Sassan Hafizi

Subjects

Galectin-3, Tyro3, Axl, MerTK, Gas6, protein S, Microbiology, QR1-502

Abstract

The TAM (Tyro3, Axl, MerTK) subfamily of receptor tyrosine kinases (RTKs) and their ligands, Gas6 and protein S (ProS1), are implicated in tumorigenesis and chemoresistance in various cancers. The β-galactoside binding protein galectin-3 (Gal-3), which is also implicated in oncogenesis, has previously been shown to be a ligand for MerTK. However, the selectivity of Gal-3 for the other TAM receptors, and its TAM-mediated signalling and functional properties in cancer cells, remain to be explored. The present study was aimed at determining these, including through direct comparison of Gal-3 with the two canonical TAM ligands. Exogenous Gal-3 rapidly stimulated Tyro3 receptor phosphorylation to the same extent as the Tyro3 ligand ProS1, but not Axl, in the cultured human cancer cell lines SCC-25 (express both Tyro3 and Axl) and MGH-U3 (express Tyro3 only). Gal-3 also activated intracellular Erk and Akt kinases in both cell lines and furthermore protected cells from acute apoptosis induced by staurosporine but not from serum-starvation induced apoptosis. In addition, Gal-3 significantly stimulated cancer cell migration rate in the presence of the Axl blocker BGB324. Therefore, these results have shown Gal-3 to be a novel agonist for Tyro3 RTK, activating a Tyro3-Erk signalling axis, as well as Akt signalling, in cancer cells that promotes cell survival, cell cycle progression and cell migration. These data therefore reveal a novel mechanism of Tyro3 RTK activation through the action of Gal-3 that contrasts with those of the known TAM ligands Gas6 and ProS1.

Published

2020

171. Ginsenoside Rg3 Attenuates Lipopolysaccharide-Induced Acute Lung Injury via MerTK-Dependent Activation of the PI3K/AKT/mTOR Pathway

Author

Jing Yang, Senyang Li, Luyao Wang, Fen Du, Xiaoliu Zhou, Qiqi Song, Junlong Zhao, and Rui Fang

Subjects

acute lung injury, lipopolysaccharide, ginsenoside Rg3, inflammatory, MerTK, Therapeutics. Pharmacology, RM1-950

Abstract

Acute lung injury (ALI) is a common clinical disease with high morbidity in both humans and animals. Ginsenoside Rg3, a type of traditional Chinese medicine extracted from ginseng, is widely used to cure many inflammation-related diseases. However, the specific molecular mechanism of the effects of ginsenoside Rg3 on inflammation has rarely been reported. Thus, we established a mouse model of lipopolysaccharide (LPS)-induced ALI to investigate the immune protective effects of ginsenoside Rg3 and explore its molecular mechanism. In wild type (WT) mice, we found that ginsenoside Rg3 treatment significantly mitigated pathological damages and reduced myeloperoxidase (MPO) activity as well as the production of pro-inflammatory cytokines tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and interleukin-6 (IL-6); furthermore, the production of anti-inflammatory mediators interleukin-10 (IL-10) and transforming growth factor-β (TGF-β), polarization of M2 macrophages and expression levels of the phosphorylation of phosphatidylinositol 3-hydroxy kinase (PI3K), protein kinase B (PKB, also known as AKT), mammalian target of rapamycin (mTOR) and Mer receptor tyrosine kinase (MerTK) were promoted. However, there were no significant differences with regards to the pathological damage, MPO levels, inflammatory cytokine levels, and protein expression levels of the phosphorylation of PI3K, AKT and mTOR between the LPS treatment group and ginsenoside Rg3 group in MerTK-/- mice. Taken together, the present study demonstrated that ginsenoside Rg3 could attenuate LPS-induced ALI by decreasing the levels of pro-inflammatory mediators and increasing the production of anti-inflammatory cytokines. These processes were mediated through MerTK-dependent activation of its downstream the PI3K/AKT/mTOR pathway. These findings identified a new site of the specific anti-inflammatory mechanism of ginsenoside Rg3.

Published

2018

172. GAS6/TAM Pathway Signaling in Hemostasis and Thrombosis

Author

Luke A. Law, Douglas K. Graham, Jorge Di Paola, and Brian R. Branchford

Subjects

GAS6, TYRO3, AXL, MERTK, platelet activation, signaling pathways, Medicine (General), R5-920

Abstract

The GAS6/TYRO3-AXL-MERTK (TAM) signaling pathway is essential for full and sustained platelet activation, as well as thrombus stabilization. Inhibition of this pathway decreases platelet aggregation, shape change, clot retraction, aggregate formation under flow conditions, and surface expression of activation markers. Transgenic mice deficient in GAS6, or any of the TAM family of receptors that engage this ligand, exhibit in vivo protection against arterial and venous thrombosis but do not demonstrate either spontaneous or prolonged bleeding compared to their wild-type counterparts. Comparable results are observed in wild-type mice treated with pharmacological inhibitors of the GAS6-TAM pathway. Thus, GAS6/TAM inhibition offers an attractive novel therapeutic option that may allow for a moderate reduction in platelet activation and decreased thrombosis while still permitting the primary hemostatic function of platelet plug formation.

Published

2018

173. Unraveling the Molecular Mystery of Retinal Pigment Epithelium Phagocytosis

Author

Caberoy, Nora B., Li, Wei, LaVail, Matthew M., editor, Ash, John D., editor, Anderson, Robert E., editor, Hollyfield, Joe G., editor, and Grimm, Christian, editor

Published

2012

174. On Your Marks… Get Bound… Internalize!

Author

Law, Ah-Lai, Nandrot, Emeline F., LaVail, Matthew M., editor, Ash, John D., editor, Anderson, Robert E., editor, Hollyfield, Joe G., editor, and Grimm, Christian, editor

Published

2012

175. The role of MerTK in promoting cell migration is enhanced by the oncogenic Ras/IL‐33 signaling axis

Author

Megumi Funakoshi-Tago, Jitsuhiro Matsugi, Chihiro Aoki-Ohmura, Takahiro Kuchimaru, Satoshi Ohta, Hisanaga Horie, Ken Yanagisawa, and Kenji Tago

Subjects

Gene knockdown, c-Mer Tyrosine Kinase, Cell migration, Tyrosine phosphorylation, Oncogenes, Cell Biology, MERTK, Biology, Interleukin-33, Biochemistry, Receptor tyrosine kinase, Mice, chemistry.chemical_compound, Genes, ras, chemistry, Cell Movement, Cancer research, biology.protein, Animals, Humans, Phosphorylation, Kinase activity, Molecular Biology, Tyrosine kinase

Abstract

Ras genes are frequently mutated in many cancer types; however, there are currently no conclusively effective anticancer drugs against Ras-induced cancer. Therefore, the downstream effectors of Ras signaling need to be identified for the development of promising novel therapeutic approaches. We previously reported that oncogenic Ras induced the expression of NF-HEV/IL-33, a member of the interleukin-1 family, and showed that intracellular IL-33 was required for oncogenic Ras-induced cellular transformation. In the present study, we demonstrated that the c-Mer proto-oncogene tyrosine kinase (MerTK), a receptor tyrosine kinase, played essential roles in oncogenic Ras/IL-33 signaling. The expression of MerTK was enhanced in transformed NIH-3T3 cells by the expression of oncogenic Ras, H-Ras (G12V), in an IL-33-dependent manner. In human colorectal cancer tissues, MerTK expression also correlated with IL-33 expression. The knockdown of IL-33 or MerTK effectively attenuated the migration of NIH-3T3 cells transformed by H-Ras (G12V) and A549, LoVo, and HCT116 cells harboring an oncogenic K-Ras mutation. Furthermore, the suppression of Ras-induced cell migration by the knockdown of IL-33 was rescued by the enforced expression of MerTK. The present results also revealed that MerTK was effectively phosphorylated in NIH-3T3 cells transformed by Ras (G12V). Ras signaling was essential for the tyrosine phosphorylation of MerTK, and the kinase activity of MerTK was indispensable for accelerating cell migration. Collectively, the present results reveal a novel role for MerTK in cancer malignancy, which may be utilized to develop novel therapeutic strategies that target Ras-transformed cells.

Published

2021

176. AXL/MERTK inhibitor ONO-7475 potently synergizes with venetoclax and overcomes venetoclax resistance to kill FLT3-ITD acute myeloid leukemia

Author

Joseph D. Khoury, Prerna Malaney, Courtney D. DiNardo, Bing Z. Carter, Lauren B Ostermann, Michael Andreeff, Ryohei Kozaki, Xiaorui Zhang, Marina Konopleva, Sean M. Post, Marisa J.L. Aitken, Peter P. Ruvolo, Huaxian Ma, Vivian Ruvolo, Tomoko Yasuhiro, Po Yee Mak, and Lauren E. Chan

Subjects

MAPK/ERK pathway, Myeloid, business.industry, Venetoclax, Myeloid leukemia, Hematology, MERTK, medicine.disease, Leukemia, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, hemic and lymphatic diseases, medicine, Cancer research, MCL1, business, Tyrosine kinase

Abstract

FMS-like Tyrosine Kinase 3 (FLT3) mutation is associated with poor survival in acute myeloid leukemia (AML). The specific Anexelekto/MER Tyrosine Kinase (AXL) inhibitor, ONO-7475, kills FLT3-mutant AML cells with targets including Extracellular- signal Regulated Kinase (ERK) and Myeloid Cell Leukemia 1 (MCL1). ERK and MCL1 are known resistance factors for Venetoclax (ABT-199), a popular drug for AML therapy, prompting the investigation of the efficacy of ONO-7475 in combination with ABT-199 in vitro and in vivo. ONO-7475 synergizes with ABT-199 to potently kill FLT3-mutant acute myeloid leukemia cell lines and primary cells. ONO-7475 is effective against ABT-199-resistant cells including cells that overexpress MCL1. Proteomic analyses revealed that ABT-199-resistant cells expressed elevated levels of pro-growth and anti-apoptotic proteins compared to parental cells, and that ONO-7475 reduced the expression of these proteins in both the parental and ABT-199-resistant cells. ONO-7475 treatment significantly extended survival as a single in vivo agent using acute myeloid leukemia cell lines and PDX models. Compared to ONO-7474 monotherapy, the combination of ONO-7475/ABT-199 was even more potent in reducing leukemic burden and prolonging the survival of mice in both model systems. These results suggest that the ONO-7475/ABT-199 combination may be effective for AML therapy.

Published

2021

177. CoQ10 Promotes Resolution of Necrosis and Liver Regeneration After Acetaminophen-Induced Liver Injury

Author

Xu Chen, Peiwen Zhang, Taiping He, Yi Tang, Wanjun Fang, and Shen Chen

Subjects

Necrosis, Ubiquinone, Pharmacology, Toxicology, Mice, chemistry.chemical_compound, Cyclin D1, Animals, Medicine, Acetaminophen, Coenzyme Q10, Liver injury, business.industry, digestive, oral, and skin physiology, MERTK, medicine.disease, Liver regeneration, Liver Regeneration, Mice, Inbred C57BL, Mitochondrial respiratory chain, Liver, chemistry, Chemical and Drug Induced Liver Injury, Chronic, Hepatocytes, Chemical and Drug Induced Liver Injury, medicine.symptom, business, medicine.drug

Abstract

Coenzyme Q10 (CoQ10) which acts as an electron transporter in the mitochondrial respiratory chain has many beneficial effects on liver diseases. In our previous research, CoQ10 has been found to attenuate acetaminophen (APAP)-induced acute liver injury (ALI). However, whether CoQ10 administration is still effective at the late stage of APAP overdose is still unknown. In this study, we aimed to test CoQ10 efficacy at the late stage of APAP overdose. C57BL/6J mice were intraperitoneally treated with APAP to induce liver injury. CoQ10 (5 mg/kg) was given to mice at 16 h after APAP treatment. The results showed that while CoQ10 treatment at 16 h post-APAP overdose had no effects on the expression of ROS generated genes or scavenged genes, it still significantly decreased necrosis of hepatocytes following APAP-induced ALI. Moreover, CoQ10 increased MerTK+ macrophages accumulation in the APAP-overdose liver and inhibition of MerTK signaling partly abrogated the protective role of CoQ10 treatment on the hepatic necrosis. CoQ10 treatment also significantly enhanced hepatocytes proliferation as shown in the increased 5-bromodeoxyuridine incorporation in the APAP-intoxicated mice liver section. In addition, CoQ10 treatment increased hepatic Proliferating Cell Nuclear Antigen (PCNA) and Cyclin D1 expression and promoted activation of the β-catenin signaling in APAP-overdose mice. To conclude, these data provide evidence that CoQ10 treatment is still effective at the late stage of APAP-induced ALI and promotes resolution of necrosis and liver regeneration following ALI.

Published

2021

178. Peptidoglycan from Bacillus anthracis Inhibits Human Macrophage Efferocytosis in Part by Reducing Cell Surface Expression of MERTK and TIM-3.

Author

Mytych JS, Pan Z, Lopez-Davis C, Redinger N, Lawrence C, Ziegler J, Popescu NI, James JA, and Farris AD

Abstract

Bacillus anthracis peptidoglycan (PGN) is a major component of the bacterial cell wall and a key pathogen-associated molecular pattern (PAMP) contributing to anthrax pathology, including organ dysfunction and coagulopathy. Increases in apoptotic lymphocytes are a late-stage feature of anthrax and sepsis, suggesting there is a defect in apoptotic clearance. Here, we tested the hypothesis that B. anthracis PGN inhibits the capacity of human monocyte-derived macrophages (MΦ) to efferocytose apoptotic cells. Exposure of CD163 + CD206 + MΦ to PGN for 24h impaired efferocytosis in a manner dependent on human serum opsonins but independent of complement component C3. PGN treatment reduced cell surface expression of the pro-efferocytic signaling receptors MERTK, TYRO3, AXL, integrin αVβ5, CD36 and TIM-3, whereas TIM-1, αVβ3, CD300b, CD300f, STABILIN-1 and STABILIN-2 were unaffected. ADAM17 is a major membrane-bound protease implicated in mediating efferocytotic receptor cleavage. We found multiple ADAM17-mediated substrates increased in PGN-treated supernatant suggesting involvement of membrane-bound proteases. ADAM17 inhibitors TAPI-0 and Marimastat prevented TNF release, indicating effective protease inhibition, and modestly increased cell-surface levels of MerTK and TIM-3 but only partially restored efferocytic capacity by PGN-treated MΦ. We conclude that human serum factors are required for optimal recognition of PGN by human MΦ and that B. anthracis PGN inhibits efferocytosis in part by reducing cell surface expression of MERTK and TIM-3., Competing Interests: CONFLICTS OF INTEREST The authors have no conflicts to disclose.

Published

2023

179. Therapeutic Targeting of MERTK and BCL-2 in T-Cell and Early T-Precursor Acute Lymphoblastic Leukemia

Author

Ryan J. Summers, Juhi Jain, Eleana Vasileiadi, Brittany Smith, Madison L. Chimenti, Tsz Y. Yeung, James Kelvin, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Jeffrey W. Tyner, Erik C. Dreaden, Deborah DeRyckere, and Douglas K. Graham

Subjects

Cancer Research, Oncology, ETP-ALL, small molecule inhibitor, MERTK, BCL-2, MRX-2843

Abstract

T-cell acute lymphoblastic leukemia (T-ALL) accounts for 15% of childhood ALL. The early T-precursor (ETP-ALL) subset is characterized by an immature T-cell phenotype, chemoresistance, and high rates of induction failure. MERTK receptor tyrosine kinase is ectopically expressed in half of T-ALLs, particularly those with an immature T-cell phenotype, suggesting a role in ETP-ALL. The anti-apoptotic protein B-cell lymphoma-2 (BCL-2) is essential for ETP-ALL cell survival. Here, we show that MERTK and BCL-2 mRNA and protein are preferentially expressed in ETP-ALL patient samples. The dual MERTK/FLT3 inhibitor MRX-2843 decreased MERTK activation and downstream signaling, inhibited cell expansion, and induced cell death in ETP-ALL cell lines. Further, 54% (21/39) of primary T-ALL patient samples were sensitive to MERTK inhibition. Treatment with MRX-2843 significantly reduced leukemia burden and prolonged survival in cell-line-derived T-ALL and ETP-ALL xenograft models. In a patient-derived ETP-ALL xenograft model, treatment with MRX-2843 markedly reduced peripheral blood leukemia and spleen weight compared to vehicle-treated mice and prolonged survival. MRX-2843 also synergized with venetoclax to provide enhanced anti-leukemia activity in ETP-ALL cell cultures, with a dose ratio of 1:20 MRX-2843:venetoclax providing optimal synergy. These data demonstrate the therapeutic potential of MRX-2843 in patients with T-ALL and provide rationale for clinical development. MRX-2843 monotherapy is currently being tested in patients with relapsed leukemia (NCT04872478). Further, our data indicate that combined MERTK and BCL-2 inhibition may be particularly effective for treatment of ETP-ALL.

Published

2022

180. Efferocytosis in the tumor microenvironment.

Author

Werfel, Thomas A. and Cook, Rebecca S.

Subjects

*TUMOR microenvironment, *CELL death, *APOPTOSIS, *MACROPHAGES, *PHOSPHATIDYLSERINES

Abstract

Within the course of a single minute, millions of cells in the human body will undergo programmed cell death in response to physiological or pathological cues. The diminished energetic capacity of an apoptotic cell renders the cell incapable of sustaining plasma membrane integrity. Under these circumstances, intracellular contents that might leak into the surrounding tissue microenvironment, a process referred to as secondary necrosis, could induce inflammation and tissue damage. Remarkably, in most cases of physiologically rendered apoptotic cell death, inflammation is avoided because a mechanism to swiftly remove apoptotic cells from the tissue prior to their secondary necrosis becomes activated. This mechanism, referred to as efferocytosis, uses phagocytes to precisely identify and engulf neighboring apoptotic cells. In doing so, efferocytosis mantains tissue homeostasis that would otherwise be disrupted by normal cellular turnover and exacerbated further when the burden of apoptotic cells becomes elevated due to disease or insult. Efferocytosis also supports the resolution of inflammation, restoring tissue homesostasis. The importance of efferocytosis in health and disease underlies the increasing research efforts to understand the mechanisms by which efferocytosis occurs, and how a failure in the efferocytic machinery contributes to diseases, or conversely, how cancers effectively use the existing efferocytic machinery to generate a tumor-tolerant, immunosuppressive tumor microenvironment. We discuss herein the molecular mechanisms of efferocytosis, how the process of efferocytosis might support a tumor ‘wound healing’ phenotype, and efforts to target efferocytosis as an adjunct to existing tumor treatments. [ABSTRACT FROM AUTHOR]

Published

2018

181. Ginsenoside Rg3 Attenuates Lipopolysaccharide-Induced Acute Lung Injury via MerTK-Dependent Activation of the PI3K/AKT/mTOR Pathway.

Author

Yang, Jing, Li, Senyang, Wang, Luyao, Du, Fen, Zhou, Xiaoliu, Song, Qiqi, Zhao, Junlong, and Fang, Rui

Subjects

GINSENOSIDES, LIPOPOLYSACCHARIDES, LUNG injuries

Abstract

Acute lung injury (ALI) is a common clinical disease with high morbidity in both humans and animals. Ginsenoside Rg3, a type of traditional Chinese medicine extracted from ginseng, is widely used to cure many inflammation-related diseases. However, the specific molecular mechanism of the effects of ginsenoside Rg3 on inflammation has rarely been reported. Thus, we established a mouse model of lipopolysaccharide (LPS)-induced ALI to investigate the immune protective effects of ginsenoside Rg3 and explore its molecular mechanism. In wild type (WT) mice, we found that ginsenoside Rg3 treatment significantly mitigated pathological damages and reduced myeloperoxidase (MPO) activity as well as the production of pro-inflammatory cytokines tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and interleukin-6 (IL-6); furthermore, the production of anti-inflammatory mediators interleukin-10 (IL-10) and transforming growth factor-β (TGF-β), polarization of M2 macrophages and expression levels of the phosphorylation of phosphatidylinositol 3-hydroxy kinase (PI3K), protein kinase B (PKB, also known as AKT), mammalian target of rapamycin (mTOR) and Mer receptor tyrosine kinase (MerTK) were promoted. However, there were no significant differences with regards to the pathological damage, MPO levels, inflammatory cytokine levels, and protein expression levels of the phosphorylation of PI3K, AKT and mTOR between the LPS treatment group and ginsenoside Rg3 group in MerTK-/- mice. Taken together, the present study demonstrated that ginsenoside Rg3 could attenuate LPS-induced ALI by decreasing the levels of pro-inflammatory mediators and increasing the production of anti-inflammatory cytokines. These processes were mediated through MerTK-dependent activation of its downstream the PI3K/AKT/mTOR pathway. These findings identified a new site of the specific anti-inflammatory mechanism of ginsenoside Rg3. [ABSTRACT FROM AUTHOR]

Published

2018

182. MERTK mutation update in inherited retinal diseases.

Author

Audo, Isabelle, Mohand‐Said, Saddek, Boulanger‐Scemama, Elise, Zanlonghi, Xavier, Condroyer, Christel, Démontant, Vanessa, Boyard, Fiona, Antonio, Aline, Méjécase, Cécile, El Shamieh, Said, Sahel, José‐Alain, and Zeitz, Christina

Abstract

Abstract: MER tyrosine kinase (MERTK) encodes a surface receptor localized at the apical membrane of the retinal pigment epithelium. It plays a critical role in photoreceptor outer segment internalization prior to phagocytosis. Mutations in MERTK have been associated with severe autosomal recessive retinal dystrophies in the RCS rat and in humans. We present here a comprehensive review of all reported MERTK disease causing variants with the associated phenotype. In addition, we provide further data and insights of a large cohort of 1,195 inherited retinal dystrophies (IRD) index cases applying state‐of‐the‐art genotyping techniques and summarize current knowledge. A total of 79 variants have now been identified underlying rod‐cone dystrophy and cone‐rod dystrophy including 11 novel variants reported here. The mutation spectrum in MERTK includes 33 missense, 12 nonsense, 12 splice defects, 12 small deletions, two small insertion–deletions, three small duplications, and two exonic and three gross deletions. Altogether, mutations in MERTK account for ∼2% of IRD cases with a severe retinal phenotype. These data are important for current and future therapeutic trials including gene replacement therapy or cell‐based therapy. [ABSTRACT FROM AUTHOR]

Published

2018

183. Axl and MerTK receptor tyrosine kinases maintain human macrophage efferocytic capacity in the presence of viral triggers.

Author

Grabiec, Aleksander M., Goenka, Anu, Fife, Mark E., Fujimori, Toshifumi, and Hussell, Tracy

Abstract

Abstract: The requirement to remove apoptotic cells is equally important in homeostasis and inflammatory disease. In particular, during viral infections large quantities of infected cells undergo apoptosis and need to be efficiently cleared by phagocytes to prevent secondary necrosis. Although specific roles of several apoptotic cell sensors, such as the TAM (Tyro3, Axl, MerTK) receptor family, have been characterized in mouse models, little is known about their regulation and involvement in apoptotic cell uptake (efferocytosis) by human macrophages under inflammatory conditions. We show that whereas pro‐inflammatory stimuli consistently downregulated MerTK expression in human monocyte‐derived macrophages (MDMs), stimuli indicative of a viral infection, interferon‐α (IFN‐α) and the TLR3 ligand poly(I:C), specifically induced Axl expression and promoted binding of the bridging molecule Gas6. Axl induction by IFN‐α and poly(I:C) was associated with higher MDM efferocytic capacity compared to cells treated with other pro‐inflammatory stimuli, such as LPS and IFN‐γ. While MerTK blocking antibody uniformly suppressed apoptotic cell uptake by MDMs, Axl blocking antibody significantly reduced efferocytosis by poly(I:C)‐stimulated MDMs, but not by resting MDMs. Our observations demonstrate that Axl induction during viral infections contributes to maintaining macrophage capacity to engulf apoptotic cells, which may have important consequences for resolution of anti‐viral immune responses. [ABSTRACT FROM AUTHOR]

Published

2018

184. Subretinal Human Umbilical Tissue-Derived Cell Transplantation Preserves Retinal Synaptic Connectivity and Attenuates Müller Glial Reactivity.

Author

Sehwon Koh, Chen, William J., Eroglu, Cagla, Dejneka, Nadine S., Harris, Ian R., Bin Lu, Girnian, Sergey, Saylor, Joshua, and Shaomei Wang

Subjects

*UMBILICAL cord, *RETINAL degeneration, *TRANSPLANTATION of organs, tissues, etc., *NEUROTROPHINS, *PHOTORECEPTORS

Abstract

Human umbilical tissue-derived cells (hUTC or palucorcel) are currently under clinical investigation for the treatment of geographic atrophy, a late stage of macular degeneration, hut how hUTC transplantation mediates vision recovery is not fully elucidated. Subretinal administration of hUTC preserves visual function in the Royal College of Surgeons (RCS) rat, a genetic model of retinal degeneration caused by Mertk loss of function. hUTC secrete synaptogenic and neurotrophic factors that improve the health and connectivity of the neural retina. Therefore, we investigated the progression of synapse and photoreceptor loss and whether hUTC treatment preserves photoreceptors and synaptic connectivity in the RCS rats of both sexes. W e found that RCS retinas display significant deficits in synaptic development already by postnatal day 21 (P21), before the onset of photoreceptor degeneration. Subretinal transplantation of hUTC at P21 is necessary to rescue visual function in RCS rats, and the therapeutic effect is enhanced with repeated injections. Synaptic development defects occurred concurrently with morphological changes in M üller glia, the major perisynaptic glia in the retina. hUTC transplantation strongly diminished Müller glia reactivity and specifically protected the α2δI containing retinal synapses, which are responsive to thrombospondin family synaptogenic proteins secreted by Müller glia. Müller glial reactivity and reduced synaptogenesis observed in RCS retinas could be recapitulated by CRISPR/Cas9-mediated loss-of-Mertk in Müller glia in wild-type rats. Together, our results show that hUTC transplantation supports the health of retina at least in part by preserving the functions of Midler glial cells, revealing a previously unknown aspect of hUTC transplantation-based therapy. [ABSTRACT FROM AUTHOR]

Published

2018

185. MerTK mediates STAT3-KRAS/SRC-signaling axis for glioma stem cell maintenance.

Author

Eom, Hyojin, Kaushik, Neha, Yoo, Ki-Chun, Shim, Jin-Kyoung, Kwon, Munjin, Choi, Mi-Young, Yoon, Taeyoung, Kang, Seok-Gu, and Lee, Su-Jae

Subjects

*AMINO acids, *TYROSINOSIS, *TYROSINE, *BRAIN injuries, *CENTRAL nervous system

Abstract

Receptor tyrosine kinase Mer (MerTK) has been shown to be highly expressed in Glioblastoma multiforme (GBM) in comparison to its healthy counterpart and is implicated in brain tumorigenesis. Clarifying the underlying mechanism of MerTK induced invasiveness would result in novel strategies to improve patient's response to chemotherapeutics. In vitro and in vivo assays were performed to examine the functional role of cancer stem sell (CSC) maintenance in MerTK associated invasiveness. In this article, we demonstrate that apart from GBM cells, MerTK is also upregulated in GBM stem-like cells and associated with an increased infiltrative potential of brain tumors in vivo. Silencing of MerTK suppressed the self-renewal of patient-derived GBM stem-like cells. The signaling mechanisms by which MerTK contributes to CSC maintenance have largely been obscure. Molecular analyses revealed that high expression of the signal transducer and activator of transcription 3 (STAT3)- Kirsten rat sarcoma viral oncogene homolog (KRAS) and proto-oncogene tyrosine-protein kinase SRC axis supports MerTK-induced CSC maintenance in GBM spheroids. Furthermore, a short-hairpin RNA-mediated MerTK knockdown effectively blocked invasiveness and N-cadherin expression in mouse xenografts. Collectively, our results uncover a critical function of MerTK in CSC maintenance. Considering the low basal level of MerTK expression in healthy brain cells, evaluation of MerTK as a therapeutic target should advance the research into better therapeutics for GBM. [ABSTRACT FROM AUTHOR]

Published

2018

186. Targeted Next-Generation Sequencing Reveals a Novel Frameshift Mutation in the MERTK Gene in a Chinese Family with Retinitis Pigmentosa.

Author

Yang, Mu, Li, Shujin, Liu, Wenjing, Yang, Yeming, Zhang, Lin, Zhang, Shanshan, Jiang, Zhilin, Yang, Zhenglin, and Zhu, Xianjun

Subjects

*RETINITIS pigmentosa, *NUCLEOTIDE sequencing, *GENETIC mutation, *CHINESE people, *BLOOD testing, *DISEASES

Abstract

Background: Retinitis pigmentosa (RP) is a group of inherited retinal diseases that result in severe progressive visual impairment. Aims: The purpose of this article was to apply targeted next-generation sequencing (NGS) to identify the causative mutation in a Chinese RP family. Methods: Blood samples were collected from a Chinese proband diagnosed with RP and her family members. A total of 163 genes that have been previously found to be involved in inherited retinal diseases were selected for NGS. Rigorous NGS data analysis; Sanger sequencing validation; and segregation analysis were applied to evaluate a novel frameshift mutation. Results: Sequence analysis revealed that the proband and her affected sister both carried a novel homozygous frameshift mutation in MERTK (p.I103Nfs*4). Other family members carrying a heterozygous mutation were unaffected. This mutation was found to cosegregate with the disease phenotype in this family. This mutation was not found in 1,000 control individuals. Conclusions: The targeted NGS strategy employed provides an efficient tool for RP pathogenic gene detection. This study identified a new autosomal recessive mutation in the RP-related gene MERTK, which expands the spectrum of RP disease-causing mutations. [ABSTRACT FROM AUTHOR]

Published

2018

187. UNC569-induced Morphological Changes in Pigment Epithelia and Photoreceptor Cells in the Retina through MerTK Inhibition in Mice.

Author

Sayama, Ayako, Okado, Keiko, Nakamura, Koichi, Kawaguchi, Tatsuya, Iguchi, Takuma, Makino, Toshihiko, Yabe, Koichi, Kai, Kiyonori, and Mori, Kazuhiko

Subjects

*PHOTORECEPTORS, *PROTEIN-tyrosine kinases

Abstract

Mer proto-oncogene tyrosine kinase (MerTK), which is expressed in the retinal pigment epithelium (RPE), regulates phagocytosis of shed photoreceptor outer segments (POS). To investigate the effects of drug-induced MerTK inhibition on the retina, UNC569, a specific MerTK inhibitor, was orally administered to male mice at a concentration of 60, 100, or 150 mg/kg for up to 14 days. Furthermore, MerTK inhibition in the retinal tissue sample was examined using a phosphorylation assay following a single dose of UNC569 at 100 mg/kg. In electron microscopic examination, UNC569 at 100 mg/kg or more increased phagosomes and phagolysosomes in the RPE. In addition, UNC569 at 150 mg/kg increased chromatin-condensed nuclei in the outer nuclear layer, indicating the early phase of apoptosis of photoreceptor cells. MiR-183, miR-96, and miR-124, which are enriched in photoreceptor cells, were elevated in the plasma of mice following treatment of 150-mg/kg UNC569, in conjunction with the photoreceptor lesion. Additionally, 100-mg/kg UNC569 inhibited MerTK phosphorylation in the retina. These results suggest that MerTK inhibition impaired phagocytic function of the retina, leading to accumulation of shed POS within the POS layer and increasing phagosomes and phagolysosomes in the RPE to delay POS renewal, resulting in apoptosis of photoreceptor cells. [ABSTRACT FROM AUTHOR]

Published

2018

188. The Multifaceted Roles of TAM Receptors during Viral Infection

Author

Wang, Zhao-Yang, Wang, Pei-Gang, and An, Jing

Published

2021

189. Identification and Characterisation of cis-Regulatory Elements Upstream of the Human Receptor Tyrosine Kinase Gene MERTK

Author

Trevor J. Kilpatrick, Alexandra J Harvey, Michele D. Binder, Alexander D Walsh, and Laura J. Johnson

Subjects

Research Report, Regulation of gene expression, MERTK, Promoter, gene expression regulation, Biology, multiple sclerosis, Receptor tyrosine kinase, Cell biology, DNA binding site, Transcription (biology), myeloid cells, promoter regions, biology.protein, General Earth and Planetary Sciences, transcription, Enhancer, Gene, General Environmental Science

Abstract

BACKGROUND: MERTK encodes a receptor tyrosine kinase that regulates immune homeostasis via phagocytosis of apoptotic cells and cytokine-mediated immunosuppression. MERTK is highly expressed in the central nervous system (CNS), specifically in myeloid derived innate immune cells and its dysregulation is implicated in CNS pathologies including the autoimmune disease multiple sclerosis (MS). OBJECTIVE: While the cell types and tissues that express MERTK have been well described, the genetic elements that define the gene’s promoter and regulate specific transcription domains remain unknown. The primary objective of this study was to define and characterise the human MERTK promoter region. METHODS: We cloned and characterized the 5’ upstream region of MERTK to identify cis-acting DNA elements that promote gene transcription in luciferase reporter assays. In addition, promoter regions were tested for sensitivity to the anti-inflammatory glucocorticoid dexamethasone. RESULTS: This study identified identified both proximal and distal-acting DNA elements that promote transcription. The strongest promoter activity was identified in an ∼850 bp region situated 3 kb upstream of the MERTK transcription start site. Serial deletions of this putative enhancer revealed that the entire region is essential for expression activity. Using in silico analysis, we identified several candidate transcription factor binding sites. Despite a well-established upregulation of MERTK in response to anti-inflammatory glucocorticoids, no DNA region within the 5 kb putative promoter was found to directly respond to dexamethasone treatment. CONCLUSIONS: Elucidating the genetic mechanisms that regulate MERTK expression gives insights into gene regulation during homeostasis and disease, providing potential targets for therapeutic modulation of MERTK transcription.

Published

2021

190. TAM Signaling in the Nervous System

Author

Tal Burstyn-Cohen and Arielle Hochberg

Subjects

0301 basic medicine, Nervous system, Research Report, TAM receptors, Receptor tyrosine kinase, neuroinflammation, 03 medical and health sciences, 0302 clinical medicine, Immune system, stomatognathic system, Gas6, homeostasis, medicine, PROS1, skin and connective tissue diseases, Neuroinflammation, General Environmental Science, biology, GAS6, Neurodegeneration, nervous system, neurodegeneration, phagocytosis, MERTK, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, biology.protein, General Earth and Planetary Sciences, TAM signaling, Signal transduction, immune, Neuroscience, protein S, 030217 neurology & neurosurgery, hormones, hormone substitutes, and hormone antagonists

Abstract

Tyro3, Axl and Mertk are members of the TAM family of tyrosine kinase receptors. TAMs are activated by two structurally homologous ligands GAS6 and PROS1. TAM receptors and ligands are widely distributed and often co-expressed in the same cells allowing diverse functions across many systems including the immune, reproductive, vascular, and the developing as well as adult nervous systems. This review will focus specifically on TAM signaling in the nervous system, highlighting the essential roles this pathway fulfills in maintaining cell survival and homeostasis, cellular functions such as phagocytosis, immunity and tissue repair. Dysfunctional TAM signaling can cause complications in development, disruptions in homeostasis which can rouse autoimmunity, neuroinflammation and neurodegeneration. The development of therapeutics modulating TAM activities in the nervous system has great prospects, however, foremost we need a complete understanding of TAM signaling pathways.

Published

2021

191. MERTK retinopathy: biomarkers assessing vision loss

Author

Lisa Ewans, Dhimas Hari Sakti, Benjamin M. Nash, Afsah Zaheer, Peter McCluskey, Clara W. T. Chung, Sulekha Rajagopalan, Robyn V. Jamieson, John R. Grigg, Stephanie Retsas, Nina Mustafic, and Elisa E Cornish

Subjects

medicine.medical_specialty, Retinal pigment epithelium, genetic structures, medicine.diagnostic_test, business.industry, Disease progression, MERTK, medicine.disease, eye diseases, Ophthalmology, medicine.anatomical_structure, Pediatrics, Perinatology and Child Health, Retinitis pigmentosa, Medicine, Biomarker (medicine), sense organs, business, Erg, Genetics (clinical), Retinopathy, Electroretinography

Abstract

Purpose Mer tyrosine kinase-retinitis pigmentosa (MERTK-RP) causes a primary defect in the retinal pigment epithelium, which subsequently affects rod and cone photoreceptors. The study aims to identify the most appropriate MERTK-RP biomarkers to measure disease progression for deciding the optimum therapeutic trial intervention time. Materials and methods Patients' data from baseline (BL) and last follow-up (LFU) were reviewed. Best corrected visual acuity (BCVA), spectral domain-optical coherence tomography (SD-OCT), ultra-widefield fundus autofluorescence (UWF-FAF) patterns, kinetic perimetry (KP), and electroretinography (ERG) parameters were analyzed. Results Five patients were included with the mean age of 17.7 ± 14.4 years old (6.7-42.3) at BL and mean BCVA follow-up of 8.4 ± 5.1 years. Mean BCVA at BL and LFU were 0.84 ± 0.86 LogMAR and 1.14 ± 0.86 LogMAR, respectively. The BCVA decline rate was 0.05 ± 0.03 LogMAR units/year. Ellipzoid zones (EZ) were measurable in eight eyes with mean BL length of 1293.75 ± 421.07 µm and reduction of 140.95 ± 69.28 µm/year and mean BL CMT of 174.2 ± 37.52 µm with the rate of 11.2 ± 12.77 µm declining/year. Full-field ERG (ffERG) and pattern ERG (pERG) were barely recordable. UWF-FAF showed central macular hyper-autofluorescence (hyperAF). KP (III4e and V4e) was normal in two eyes, restricted nasally in four eyes, superior wedge defect in two eyes and undetectable in two eyes. The four restricted nasally KPs became worse, while the others stayed almost unchanged. Conclusions This cohort showed early visual loss, moderately rapid EZ reduction and macular hyperAF. EZ, CMT, and BCVA were consistently reduced. Relative rapid decline in these biomarkers reflecting visual function suggests an early and narrow timespan for intervention.

Published

2021

192. Calcified chondroid mesenchymal neoplasms with FN1-receptor tyrosine kinase gene fusions including FGFR2, FGFR1, MERTK, NTRK1, and TEK: a molecular and clinicopathologic analysis

Author

Robert W. Ricciotti, Yajuan J. Liu, Christopher D.M. Fletcher, Yu Wu, Wenjing Wang, Eleanor Y. Chen, Jeffrey Yeh, and Jose G. Mantilla

Subjects

Adult, Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Soft Tissue Neoplasm, Soft Tissue Neoplasms, Biology, Pathology and Forensic Medicine, 03 medical and health sciences, Exon, 0302 clinical medicine, medicine, Humans, Oncogene Fusion, Receptor, Fibroblast Growth Factor, Type 1, Receptor Tyrosine Kinase Gene, Receptor, trkA, Aged, Neoplasms, Connective Tissue, c-Mer Tyrosine Kinase, Cartilage, Calcinosis, Soft tissue, Middle Aged, MERTK, medicine.disease, Receptor, TIE-2, Fibronectins, stomatognathic diseases, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, Fibroblast Growth Factor 2, Tyrosine kinase, Calcification

Abstract

Translocations involving FN1 have been described in a variety of neoplasms that share the presence of a cartilage matrix and may also contain a variable extent of calcification. Fusions of FN1 to FGFR1 or FGFR2 have been reported in nine soft tissue chondromas, mostly demonstrated indirectly by FISH analysis. Delineation of FN1 fusions with various partner genes will facilitate our understanding of the pathogenesis and diagnostic classification of these neoplasms. In this study, we present molecular, clinical, and pathologic features of 12 cartilaginous soft tissue neoplasms showing a predilection for the TMJ region and the distal extremities. We analyzed for gene fusions with precise breakpoints using targeted RNA-seq with a 115-gene panel. We detected gene fusions in ten cases, including three novel fusions, FN1-MERTK, FN1-NTRK1, and FN1-TEK, each in one case, recurrent FN1-FGFR2 fusion in five cases, FN1-FGFR1 in one case, and FGFR1-PLAG1 in one case. The breakpoints in the 5' partner gene FN1 ranged from exons 11-48, retaining the domains of a signal peptide, FN1, FN2, and/or FN3, while the 3' partner genes retained the transmembrane domain, tyrosine kinase (TK) domains, and/or Ig domain. The tumors are generally characterized by nodular/lobular growth of polygonal to stellate cells within a chondroid matrix, often accompanied by various patterns of calcification, resembling those described for the chondroblastoma-like variant of soft tissue chondroma. Additional histologic findings include extensive calcium pyrophosphate dihydrate deposition in two cases and features resembling tenosynovial giant cell tumor (TGCT). Overall, while the tumors from our series show significant morphologic overlap with chondroblastoma-like soft tissue chondroma, we describe findings that expand the morphologic spectrum of these neoplasms and therefore refer to them as "calcified chondroid mesenchymal neoplasms." These neoplasms represent a spectrum of chondroid/cartilage matrix-forming tumors harboring FN1-receptor TK fusions that include those classified as soft tissue chondroma as well as chondroid TGCT.

Published

2021

193. Spitz nevus with a novel <scp> TFG‐NTRK2 </scp> fusion: The first case report of <scp> NTRK2 </scp> ‐rearranged Spitz/Reed nevus

Author

Daniel Pissaloux, Arnaud de la Fouchardière, Franck Tirode, and Keisuke Goto

Subjects

Pathology, medicine.medical_specialty, Histology, Pigmented spindle cell nevus, Dermatology, MERTK, Biology, medicine.disease, Spitz nevus, Pathology and Forensic Medicine, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Eosinophilic, medicine, ROS1, Nevus, Immunohistochemistry, HRAS, skin and connective tissue diseases

Abstract

Fusions of ALK, ROS1, NTRK1, NTRK3, RET, MET, MERTK, FGFR1, ERBB4, LCK, BRAF, MAP3K8, MAP3K3, and PRKDC and mutation of HRAS have so far been discovered as the genetic alterations associated with the pathogenesis of Spitz neoplasms. This report presents the first case of NTRK2-rearranged Spitz/Reed nevus. The patient was a 39-year-old male with a pigmented macule rapidly growing on his shoulder. Histopathologically, the lesion was a junctional melanocytic nevus composed of large nests of spindled melanocytes with abundant eosinophilic cytoplasm associated with a hyperplastic epidermis. These findings fulfilled the diagnostic criteria of a pigmented spindle cell nevus of Reed (variant of Spitz nevus). Immunohistochemistry for pan-Trk revealed diffuse cytoplasmic positivity in the tumor cells, but immunoexpression of ALK, ROS1, and BRAF V600E was not seen. A novel, in-frame, TFG-NTRK2 fusion was identified by RNA sequencing. This case report expands the list of genetic alterations in Spitz neoplasms and the spectrum of NTRK2-rearranged tumors.

Published

2021

194. Early stress-induced impaired microglial pruning of excitatory synapses on immature CRH-expressing neurons provokes aberrant adult stress responses.

Author

Bolton, Jessica L, Bolton, Jessica L, Short, Annabel K, Othy, Shivashankar, Kooiker, Cassandra L, Shao, Manlin, Gunn, Benjamin G, Beck, Jaclyn, Bai, Xinglong, Law, Stephanie M, Savage, Julie C, Lambert, Jeremy J, Belelli, Delia, Tremblay, Marie-Ève, Cahalan, Michael D, Baram, Tallie Z, Bolton, Jessica L, Bolton, Jessica L, Short, Annabel K, Othy, Shivashankar, Kooiker, Cassandra L, Shao, Manlin, Gunn, Benjamin G, Beck, Jaclyn, Bai, Xinglong, Law, Stephanie M, Savage, Julie C, Lambert, Jeremy J, Belelli, Delia, Tremblay, Marie-Ève, Cahalan, Michael D, and Baram, Tallie Z

Abstract

Several mental illnesses, characterized by aberrant stress reactivity, often arise after early-life adversity (ELA). However, it is unclear how ELA affects stress-related brain circuit maturation, provoking these enduring vulnerabilities. We find that ELA increases functional excitatory synapses onto stress-sensitive hypothalamic corticotropin-releasing hormone (CRH)-expressing neurons, resulting from disrupted developmental synapse pruning by adjacent microglia. Microglial process dynamics and synaptic element engulfment were attenuated in ELA mice, associated with deficient signaling of the microglial phagocytic receptor MerTK. Accordingly, selective chronic chemogenetic activation of ELA microglia increased microglial process dynamics and reduced excitatory synapse density to control levels. Notably, selective early-life activation of ELA microglia normalized adult acute and chronic stress responses, including stress-induced hormone secretion and behavioral threat responses, as well as chronic adrenal hypertrophy of ELA mice. Thus, microglial actions during development are powerful contributors to mechanisms by which ELA sculpts the connectivity of stress-regulating neurons, promoting vulnerability to stress and stress-related mental illnesses.

Published

2022

195. Gene Regulatory Networks and MicroRNAs in Microglia

Author

Walsh, Alexander Dominic and Walsh, Alexander Dominic

Abstract

Microglia are important regulators of central nervous system (CNS) development, homeostasis and immunity. Microglia exhibit a significant level of cellular plasticity which is facilitated by a dynamic transcriptional landscape that is modulated by genetic and environmental factors. However, our understanding of these mechanisms and the complexity of microglial transcription remains incomplete. Dysregulation of microglial gene expression and cellular function is implicated in numerous neurodevelopmental and neurodegenerative diseases, including the autoimmune demyelinating disease multiple sclerosis (MS). Therefore, understanding the transcriptional control of microglia provides invaluable knowledge of these cells and their unique roles in the CNS. The central aim of this thesis was to further characterise microglial transcription by investigating two genetic mechanisms that are strongly implicated in microglial biology. The first genetic mechanism that was investigated was the influence of small non-coding miRNAs on microglial gene expression. Here, I have comprehensively sequenced and characterised miRNA expression in microglia derived from a developmental mouse cohort and human resected brain tissue, identifying distinct subsets of known and novel miRNAs that regulate key microglial processes. Integrated miRNA-mRNA expression network analysis revealed miRNAs involved in microglial developmental processes including neurogenesis, myelination, endocytosis as well as key immune signalling pathways. Evidence from both species indicated a significant influence of age, but not sex on miRNA expression in these cells. The second genetic mechanism that was investigated was the transcriptional regulation of MERTK. MERTK has been shown to regulate microglial/myeloid cell-mediated apoptotic clearance and the resolution of inflammation in the CNS. More specifically, genetic variation in MERTK is associated with MS susceptibility. In this study, I investigated the single nucleot

Published

2022

196. Unravelling the role of microglial Mertk in myelination

Author

Nguyen, Linda Thien-Trang and Nguyen, Linda Thien-Trang

Abstract

Multiple sclerosis (MS) is a neurological disease characterised by chronic inflammation and demyelination of the central nervous system (CNS). Of the therapies currently available to treat MS, none are effective in promoting myelin repair, particularly in more progressive forms of the disease. Microglia are the resident innate immune cells of the CNS. In recent years, it has become apparent that microglia play key roles in mediating oligodendrogenesis and myelination. Broadly speaking, microglia can assume pro- or anti-inflammatory phenotypes, which influence their morphology and functions. While pro-inflammatory microglia can be drivers of demyelination, anti-inflammatory microglia can promote oligodendrocyte repopulation, especially by clearing myelin debris. One receptor tyrosine kinase expressed by these anti-inflammatory microglia is Mertk, which mediates immunoregulatory processes such as phagocytosis of apoptotic cells and debris. Given the importance of microglia in myelin repair, and Mertk in microglial function, this thesis aimed to investigate the microglial-specific role of Mertk in myelination. Using a Mertk conditional knockout (cKO) mouse model, I assessed the consequences of microglial Mertk deletion on glial cell production and myelination during development and in a mouse model of demyelination. From these experiments, Mertk cKO mice were found to have impaired oligodendroglia production and abnormal myelin ultrastructure during development. These developmental deficits were exacerbated during demyelination, whereby Mertk cKO mice showed signs of reduced mature oligodendrocyte production and thinner myelin. In collaboration with colleagues at the Paris Brain Institute, I expanded my work in mice to a transgenic tadpole model of demyelination, to determine if Mertk signalling was also beneficial in these animals. Not only was the promyelinating effect of TAM receptor signalling conserved Xenopus laevis, but pharmacological inhibition of Mertk signal

Published

2022

197. Mechanisms of Neuronal Dysfunction in Sepsis-induced Cognitive Impairment

Author

Oberle, Linda Marlene and Neher, Jonas (Dr.)

Subjects

Sepsis-induced Cognitive Impairment, MERTK, MFGE8, Mikroglia, CD11b, Sepsis induzierte kognitive Defizite, microglia

Abstract

Sepsis is a severe and frequent disease in modern intensive medicine. Sepsis does not only present with a mortality rate of 30% of all patients, but survivors often show long lasting cognitive deficits, loss of independency and reduced quality of life. However, the mechanisms of sepsis-induced cognitive impairments remain incompletely understood so far. To understand the mechanisms of cognitive decline in sepsis survivors, the possible involvement of the brain’s primary immune cells, microglia, was investigated in this project. In particular, to investigate if and how microglia contribute to synapse loss acutely and long-term after sepsis, different phagocytosis-deficient mice strains were analyzed for synapse number and phagocytosed synapse number. To model sepsis, female mice were injected on two consecutive days with either 1.5 mg/kg body weight lipopolysaccharide (LPS), a bacterial cell wall component that induces strong inflammatory responses. At different timepoints (1 day, 3 days, 7 days or 2 months) tissue was then analysed. Acutely after LPS-injections, quantification of phagocytic proteins showed a sharp increase in complement protein 3 in the brain. Consistently, immunohistochemical analysis revealed, that functional synapse number was strongly reduced and that the percentage of phagocytosed synapses was increased by LPS treatment. Interestingly, mice deficient in phagocytic signaling proteins (Mfge8 -/-, Cd11b-/-) showed no reduction in functional synapse number and no increase in phagocytosis of functional synapses after LPS-injections. Therefore, microglial phagocytosis leads to synapse loss in a mouse model of sepsis and may contribute to long-term cognitive deficits in sepsis survivors. Inhibition of specific microglial pathways could therefore be a promising new strategy to prevent long-term cognitive deficits in sepsis survivors.

Published

2022

198. BAP1 Loss Promotes Suppressive Tumor Immune Microenvironment via Upregulation of PROS1 in Class 2 Uveal Melanomas

Author

Christopher Kaler, James Dollar, Anthony Cruz, Jeffim Kuznetsoff, Margaret Sanchez, Christina Decatur, Jonathan Licht, Keiran Smalley, Zelia Correa, Stefan Kurtenbach, and J. Harbour

Subjects

Cancer Research, Oncology, uveal melanoma, BAP1, PROS1, MERTK, macrophage, tumor immune microenvironment, metastasis

Abstract

Uveal melanoma (UM) is the most common primary cancer of the eye and is associated with a high rate of metastatic death. UM can be stratified into two main classes based on metastatic risk, with class 1 UM having a low metastatic risk and class 2 UM having a high metastatic risk. Class 2 UM have a distinctive genomic, transcriptomic, histopathologic, and clinical phenotype characterized by biallelic inactivation of the BAP1 tumor-suppressor gene, an immune-suppressive microenvironment enriched for M2-polarized macrophages, and poor response to checkpoint-inhibitor immunotherapy. To identify potential mechanistic links between BAP1 loss and immune suppression in class 2 UM, we performed an integrated analysis of UM samples, as well as genetically engineered UM cell lines and uveal melanocytes (UMC). Using RNA sequencing (RNA-seq), we found that the most highly upregulated gene associated with BAP1 loss across these datasets was PROS1, which encodes a ligand that triggers phosphorylation and activation of the immunosuppressive macrophage receptor MERTK. The inverse association between BAP1 and PROS1 in class 2 UM was confirmed by single-cell RNA-seq, which also revealed that MERTK was upregulated in CD163+ macrophages in class 2 UM. Using ChIP-seq, BAP1 knockdown in UM cells resulted in an accumulation of H3K27ac at the PROS1 locus, suggesting epigenetic regulation of PROS1 by BAP1. Phosphorylation of MERTK in RAW 264.7 monocyte–macrophage cells was increased upon coculture with BAP1−/− UMCs, and this phosphorylation was blocked by depletion of PROS1 in the UMCs. These findings were corroborated by multicolor immunohistochemistry, where class 2/BAP1-mutant UMs demonstrated increased PROS1 expression in tumor cells and increased MERTK phosphorylation in CD163+ macrophages compared with class 1/BAP1-wildtype UMs. Taken together, these findings provide a mechanistic link between BAP1 loss and the suppression of the tumor immune microenvironment in class 2 UMs, and they implicate the PROS1–MERTK pathway as a potential target for immunotherapy in UM.

Published

2022

199. Circulating Small Extracellular Vesicles Activate TYRO3 to Drive Cancer Metastasis and Chemoresistance

Author

Sung Chul Lim, Youngnam Cho, Y. J. Kim, Seungmin Kang, Kyu Min Kim, Moon-Chang Baek, Keon Wook Kang, Miso Park, Ju Hyun Bae, Sung Baek Jeong, Jin Ki Kim, Dae Won Jun, Yong June Choi, Seung-Hyun Lee, Jiwon Kim, Wankyu Kim, HyungJae Lee, and Sung Yun Cho

Subjects

Male, 0301 basic medicine, Cancer Research, RHOA, Mice, Nude, Apoptosis, Metastasis, Extracellular Vesicles, Mice, 03 medical and health sciences, 0302 clinical medicine, Gefitinib, Neoplasms, Biomarkers, Tumor, Tumor Cells, Cultured, medicine, Animals, Humans, Cell Proliferation, Mice, Inbred BALB C, Tumor microenvironment, biology, Cell growth, Chemistry, Splenic Neoplasms, Liver Neoplasms, Receptor Protein-Tyrosine Kinases, Cancer, MERTK, medicine.disease, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, biology.protein, medicine.drug

Abstract

Extracellular vesicles (EV) in the tumor microenvironment have emerged as crucial mediators that promote proliferation, metastasis, and chemoresistance. However, the role of circulating small EVs (csEV) in cancer progression remains poorly understood. In this study, we report that csEV facilitate cancer progression and determine its molecular mechanism. csEVs strongly promoted the migration of cancer cells via interaction with phosphatidylserine of csEVs. Among the three TAM receptors, TYRO3, AXL, and MerTK, TYRO3 mainly interacted with csEVs. csEV-mediated TYRO3 activation promoted migration and metastasis via the epithelial–mesenchymal transition and stimulation of RhoA in invasive cancer cells. Additionally, csEV–TYRO3 interaction induced YAP activation, which led to increased cell proliferation and chemoresistance. Combination treatment with gefitinib and KRCT-6j, a selective TYRO3 inhibitor, significantly reduced tumor volume in xenografts implanted with gefitinib-resistant non–small cell lung cancer cells. The results of this study show that TYRO3 activation by csEVs facilitates cancer cell migration and chemoresistance by activation of RhoA or YAP, indicating that the csEV/TYRO3 interaction may serve as a potential therapeutic target for aggressive cancers in the clinic. Significance: These findings demonstrate that circulating extracellular vesicles are a novel driver in migration and survival of aggressive cancer cells via TYRO3 activation.

Published

2021

200. Efferocytosis Modulates Arginase-1 and Tyrosine Kinase Mer Expression in GM-CSF-Differentiated Human Macrophages

Author

Marina A. Tikhonova, Alexandr A. Ostanin, Elena R. Chernykh, E. Ya. Shevela, L. V. Sakhno, T. V. Tyrinova, and A A Maksimova

Subjects

0301 basic medicine, Chemistry, General Medicine, MERTK, complex mixtures, Molecular biology, General Biochemistry, Genetics and Molecular Biology, Arginase, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Apoptosis, Macrophage, Efferocytosis, ARG1, Incubation, Tyrosine kinase, 030217 neurology & neurosurgery

Abstract

We studied the expression of arginase-1 (Arg1) and tyrosine kinase Mer (MerTK) in GMCSF-differentiated human macrophage populations М0, М1(IFNγ), М2а(IL-4), and М2(low serum) generated under conditions of growth/serum factor deficiency. The maximum relative content of Arg1+ and MerTK+ cells was found in М2 macrophage populations: М2а(IL-4) and М2(low serum). As the uptake of apoptotic cells is the key mechanism of M2 polarization during M2(low serum) generation, we performed a special series of experiments and showed that incubation with allogeneic apoptotic neutrophils significantly increased the percentages of CD206+ macrophages co-expressing Arg1 and MerTK.

Published

2021