Your search keyword '"Vlodavsky, Israel"' showing total 1,456 results

1. Nuclear localization of heparanase 2 (Hpa2) attenuates breast carcinoma growth and metastasis

Author

Hilwi, Maram, Shulman, Katherina, Naroditsky, Inna, Feld, Sari, Gross-Cohen, Miriam, Boyango, Ilanit, Soboh, Soaad, Vornicova, Olga, Farhoud, Malik, Singh, Preeti, Bar-Sela, Gil, Goldberg, Hadassah, Götte, Martin, Sharrocks, Andrew D., Li, Yaoyong, Sanderson, Ralph D., Ilan, Neta, and Vlodavsky, Israel

Published

2024

2. miR-184 represses β-catenin and behaves as a skin tumor suppressor

Author

Turovsky, Lubov, Kheshaiboun, Ghazal, Yassen, Gharam, Nagosa, Sara, Boyango, Ilanit, Amitai-Lange, Aya, Bhattacharya, Swarnabh, Ilan, Neta, Vlodavsky, Israel, Aberdam, Daniel, Shalom-Feuerstein, Ruby, and Avitan-Hersh, Emily

Published

2024

3. Correction: Non-enzymatic heparanase enhances gastric tumor proliferation via TFEB-dependent autophagy

Author

Yang, Min, Tang, Bo, Wang, Sumin, Tang, Li, Wen, Dalin, Vlodavsky, Israel, and Yang, Shi-Ming

Published

2023

4. Heparanase 2 (Hpa2)- a new player essential for pancreatic acinar cell differentiation

Author

Kayal, Yasmin, Barash, Uri, Naroditsky, Inna, Ilan, Neta, and Vlodavsky, Israel

Published

2023

5. Heparanase Stimulation of Physiological Cardiac Hypertrophy is Suppressed Following Chronic Diabetes Resulting in Cardiac Remodeling and Dysfunction

Author

Lee, Chae Syng, primary, Shang, Rui, additional, Wang, Fulong, additional, Khayambashi, Parisa, additional, Wang, Hualin, additional, Araujo, Gala, additional, Puri, Karanjit, additional, Vlodavsky, Israel, additional, Hussein, Bahira, additional, and Rodrigues, Brian, additional

Published

2024

6. Heparanase Stimulation of Physiological Cardiac Hypertrophy is Suppressed Following Chronic Diabetes Resulting in Cardiac Remodeling and Dysfunction

Author

Syng Lee, Chae, primary, Shang, Rui, primary, Wang, Fulong, primary, Khayambashi, Parisa, primary, Wang, Hualin, primary, Araujo, Gala, primary, Puri, Karanjit, primary, Vlodavsky, Israel, primary, Hussein, Bahira, primary, and Rodrigues, Brian, primary

Published

2024

7. Impact of heparanase‐2 (Hpa2) on cancer and inflammation: Advances and paradigms

Author

Vlodavsky, Israel, primary, Hilwi, Maram, additional, Kayal, Yasmin, additional, Soboh, Soaad, additional, and Ilan, Neta, additional

Published

2024

8. Dual T cell receptor/chimeric antigen receptor engineered NK‐92 cells targeting the HPV16 E6 oncoprotein and the tumor‐associated antigen L1CAM exhibit enhanced cytotoxicity and specificity against tumor cells

Author

Quiros‐Fernandez, Isaac, primary, Libório‐Ramos, Sofia, additional, Leifert, Lena, additional, Schönfelder, Bruno, additional, Vlodavsky, Israel, additional, and Cid‐Arregui, Angel, additional

Published

2024

9. Non-enzymatic heparanase enhances gastric tumor proliferation via TFEB-dependent autophagy

Author

Yang, Min, Tang, Bo, Wang, Sumin, Tang, Li, Wen, Dalin, Vlodavsky, Israel, and Yang, Shi-Ming

Published

2022

10. Heparanase-The Message Comes in Different Flavors

Author

Ilan, Neta, Bhattacharya, Udayan, Barash, Uri, Boyango, Ilanit, Yanku, Yifat, Gross-Cohen, Miri, Vlodavsky, Israel, Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Vlodavsky, Israel, editor, Sanderson, Ralph D., editor, and Ilan, Neta, editor

Published

2020

11. Mechanism of HPSE Gene SNPs Function: From Normal Processes to Inflammation, Cancerogenesis and Tumor Progression

Author

Ostrovsky, Olga, Vlodavsky, Israel, Nagler, Arnon, Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Vlodavsky, Israel, editor, Sanderson, Ralph D., editor, and Ilan, Neta, editor

Published

2020

12. Forty Years of Basic and Translational Heparanase Research

Author

Vlodavsky, Israel, Ilan, Neta, Sanderson, Ralph D., Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Vlodavsky, Israel, editor, Sanderson, Ralph D., editor, and Ilan, Neta, editor

Published

2020

13. Heparanase Stimulation of Physiologic Cardiac Hypertrophy Is Suppressed After Chronic Diabetes, Resulting in Cardiac Remodeling and Dysfunction.

Author

Lee, Chae Syng, Shang, Rui, Wang, Fulong, Khayambashi, Parisa, Wang, Hualin, Araujo, Gala, Puri, Karanjit, Vlodavsky, Israel, Hussein, Bahira, and Rodrigues, Brian

Subjects

CARDIAC hypertrophy, HEART cells, HEPARANASE, HEART diseases, VASCULAR endothelial growth factors, METABOLIC reprogramming

Abstract

In addition to controlling smooth muscle tone in coronary vessels, endothelial cells also influence subjacent cardiomyocyte growth. Because heparanase, with exclusive expression in endothelial cells, enables extracellular matrix remodeling, angiogenesis, metabolic reprogramming, and cell survival, it is conceivable that it could also encourage development of cardiac hypertrophy. Global heparanase overexpression resulted in physiologic cardiac hypertrophy, likely an outcome of HSPG clustering and activation of hypertrophic signaling. The heparanase autocrine effect of releasing neuregulin-1 could have also contributed to this overexpression. Hyperglycemia induced by streptozotocin-induced diabetes sensitized the heart to flow-induced release of heparanase and neuregulin-1. Despite this excess secretion, progression of diabetes caused significant gene expression changes related to mitochondrial metabolism and cell death that led to development of pathologic hypertrophy and heart dysfunction. Physiologic cardiac hypertrophy was also observed in rats with cardiomyocyte-specific vascular endothelial growth factor B overexpression. When perfused, hearts from these animals released significantly higher amounts of both heparanase and neuregulin-1. However, subjecting these animals to diabetes triggered robust transcriptome changes related to metabolism and a transition to pathologic hypertrophy. Our data suggest that in the absence of mechanisms that support cardiac energy generation and prevention of cell death, as seen after diabetes, there is a transition from physiologic to pathologic cardiac hypertrophy and a decline in cardiac function. Article Highlights: Endothelial cells have been implicated in physiologic cardiac hypertrophy. We examined the role of endothelial heparanase in this process and how diabetes affects heparanase function. Heparanase overexpression resulted in physiologic cardiac hypertrophy, an outcome of HSPG clustering and direct and indirect activation of hypertrophic signaling. Hyperglycemia sensitized the heart to flow-induced heparanase release, and progression of diabetes caused gene expression changes related to mitochondrial metabolism and apoptosis. With diabetes and its associated metabolic inflexibility and cell death, actions of heparanase are negated, leading to pathologic cardiac hypertrophy and heart dysfunction. These results can contribute to mechanism-directed therapeutics for diabetic cardiomyopathy. [ABSTRACT FROM AUTHOR]

Published

2024

14. Amphiphilic Heparinoids as Potent Antiviral Agents against SARS-CoV‑2.

Author

Chhabra, Mohit, Shanthamurthy, Chethan D., Kumar, Nanjudaswamy Vijendra, Mardhekar, Sandhya, Vishweshwara, Sharath S., Wimmer, Norbert, Modhiran, Naphak, Watterson, Daniel, Amarilla, Alberto A., Cha, Jonathan S., Beckett, James R., De Voss, James J., Kayal, Yasmin, Vlodavsky, Israel, Dorsett, Lauren R., Smith, Raymond A. A., Gandhi, Neha S., Kikkeri, Raghavendra, and Ferro, Vito

Published

2024

15. Regulatory T cells use heparanase to access IL-2 bound to extracellular matrix in inflamed tissue

Author

Martinez, Hunter A., primary, Koliesnik, Ievgen, additional, Kaber, Gernot, additional, Reid, Jacqueline K., additional, Nagy, Nadine, additional, Barlow, Graham, additional, Falk, Ben A., additional, Medina, Carlos O., additional, Hargil, Aviv, additional, Zihsler, Svenja, additional, Vlodavsky, Israel, additional, Li, Jin-Ping, additional, Pérez-Cruz, Magdiel, additional, Tang, Sai-Wen, additional, Meyer, Everett H., additional, Wrenshall, Lucile E., additional, Lord, James D., additional, Garcia, K. Christopher, additional, Palmer, Theo D., additional, Steinman, Lawrence, additional, Nepom, Gerald T., additional, Wight, Thomas N., additional, Bollyky, Paul L., additional, and Kuipers, Hedwich F., additional

Published

2024

16. A New Synthesized Dicarboxylated Oxy-Heparin Efficiently Attenuates Tumor Growth and Metastasis

Author

Li, Li, primary, Barash, Uri, additional, Ilan, Neta, additional, Farhoud, Malik, additional, Zhang, Xiao, additional, Vlodavsky, Israel, additional, and Li, Jin-Ping, additional

Published

2024

17. Extracellular matrix-based cancer targeting

Author

Karamanos, Nikos K., Piperigkou, Zoi, Passi, Alberto, Götte, Martin, Rousselle, Patricia, and Vlodavsky, Israel

Published

2021

18. Role of heparanase 2 (Hpa2) in gastric cancer

Author

Liu, Jingjing, Knani, Ibrahim, Gross-Cohen, Miriam, Hu, Jiaxi, Wang, Sumin, Tang, Li, Ilan, Neta, Yang, Shiming, and Vlodavsky, Israel

Published

2021

19. Dichotomic role of heparanase in a murine model of metabolic syndrome

Author

Hermano, Esther, Carlotti, Françoise, Abecassis, Alexia, Meirovitz, Amichay, Rubinstein, Ariel M., Li, Jin-Ping, Vlodavsky, Israel, Rabelink, Ton J., and Elkin, Michael

Published

2021

20. Heparanase overexpression impedes perivascular clearance of amyloid-β from murine brain: relevance to Alzheimer’s disease

Author

Zhang, Xiao, O’Callaghan, Paul, Li, Honglian, Tan, Yingxia, Zhang, Ganlin, Barash, Uri, Wang, Xiaomin, Lannfelt, Lars, Vlodavsky, Israel, Lindahl, Ulf, and Li, Jin-Ping

Published

2021

21. Parabacteroides produces acetate to alleviate heparanase-exacerbated acute pancreatitis through reducing neutrophil infiltration

Author

Lei, Yuanyuan, Tang, Li, Liu, Shuang, Hu, Shiping, Wu, Lingyi, Liu, Yaojiang, Yang, Min, Huang, Shengjie, Tang, Xuefeng, Tang, Tao, Zhao, Xiaoyan, Vlodavsky, Israel, Zeng, Shuo, Tang, Bo, and Yang, Shiming

Published

2021

22. Novel N-acetyl-Glycol-split heparin biotin-conjugates endowed with anti-heparanase activity

Author

Esposito, Emiliano, Vlodavsky, Israel, Barash, Uri, Roscilli, Giuseppe, Milazzo, Ferdinando M., Giannini, Giuseppe, and Naggi, Annamaria

Published

2020

23. miR-184 represses β-catenin and behaves as a skin tumor suppressor

Author

Avitan-Hersh, Emily, primary, Turovsky, Lubov, additional, Kheshaiboun, Ghazal, additional, Yasen, Gharam, additional, Nagossa, Sara, additional, Boyango, Ilanit, additional, Bhattacharya, Swarnabh, additional, Amitai-Lange, Aya, additional, Ilan, Neta, additional, Vlodavsky, Israel, additional, aberdam, daniel, additional, and Shalom-Feuerstein, Ruby, additional

Published

2023

24. Heparanase protects the heart against chemical or ischemia/reperfusion injury

Author

Wang, Fulong, Pulinilkunnil, Thomas, Flibotte, Stephane, Nislow, Corey, Vlodavsky, Israel, Hussein, Bahira, and Rodrigues, Brian

Published

2019

25. Targeting Heparanase in Cancer: Inhibition by Synthetic, Chemically Modified, and Natural Compounds

Author

Mohan, Chakrabhavi Dhananjaya, Hari, Swetha, Preetham, Habbanakuppe D., Rangappa, Shobith, Barash, Uri, Ilan, Neta, Nayak, S. Chandra, Gupta, Vijai K., Basappa, Vlodavsky, Israel, and Rangappa, Kanchugarakoppal S.

Published

2019

26. P854: EFFECT OF HPSE AND HPSE2 SNPS ON THE RISK OF DEVELOPING PRIMARY PARASKELETAL MULTIPLE MYELOMA

Author

Ostrovsky, Olga, primary, Beider, Katia, additional, Magen, Hila, additional, Leiba, Merav, additional, Vlodavsky, Israel, additional, and Nagler, Arnon, additional

Published

2023

27. Heparanase—A single protein with multiple enzymatic and nonenzymatic functions

Author

Vlodavsky, Israel, primary, Kayal, Yasmin, additional, Hilwi, Maram, additional, Soboh, Soaad, additional, Sanderson, Ralph D., additional, and Ilan, Neta, additional

Published

2023

28. Heparanase

Author

Vlodavsky, Israel and Schwab, Manfred, editor

Published

2017

29. Supersulfated low-molecular weight heparin synergizes with IGF1R/IR inhibitor to suppress synovial sarcoma growth and metastases

Author

Cassinelli, Giuliana, Dal Bo, Laura, Favini, Enrica, Cominetti, Denis, Pozzi, Sabina, Tortoreto, Monica, De Cesare, Michelandrea, Lecis, Daniele, Scanziani, Eugenio, Minoli, Lucia, Naggi, Annamaria, Vlodavsky, Israel, Zaffaroni, Nadia, and Lanzi, Cinzia

Published

2018

30. Adaptive Evolution of Heparanase in Hypoxia-Tolerant Spalax: Gene Cloning and Identification of a Unique Splice Variant

Author

Nevo, Eviatar, Vlodavsky, Israel, and Avivi, Aaron

Published

2005

31. In vivo Fragmentation of Heparan Sulfate by Heparanase Overexpression Renders Mice Resistant to Amyloid Protein A Amyloidosis

Author

Li, Jin-Ping, Gong, Feng, Zhang, Xiao, Zcharia, Eyal, Metzger, Shula, Vlodavsky, Israel, Kisilevsky, Robert, Lindahl, Ulf, and Gajdusek, D. Carleton

Published

2005

32. Kundu et al, Supplementary Figure 3 from Heparanase Promotes Glioma Progression and Is Inversely Correlated with Patient Survival

Author

Kundu, Soumi, primary, Xiong, Anqi, primary, Spyrou, Argyris, primary, Wicher, Grzegorz, primary, Marinescu, Voichita D., primary, Edqvist, Per-Henrik D., primary, Zhang, Lei, primary, Essand, Magnus, primary, Dimberg, Anna, primary, Smits, Anja, primary, Ilan, Neta, primary, Vlodavsky, Israel, primary, Li, Jin-Ping, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

33. Data from Heparanase Promotes Glioma Progression and Is Inversely Correlated with Patient Survival

Author

Kundu, Soumi, primary, Xiong, Anqi, primary, Spyrou, Argyris, primary, Wicher, Grzegorz, primary, Marinescu, Voichita D., primary, Edqvist, Per-Henrik D., primary, Zhang, Lei, primary, Essand, Magnus, primary, Dimberg, Anna, primary, Smits, Anja, primary, Ilan, Neta, primary, Vlodavsky, Israel, primary, Li, Jin-Ping, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

34. Kundu et al, Supplementary Figure 2 from Heparanase Promotes Glioma Progression and Is Inversely Correlated with Patient Survival

Author

Kundu, Soumi, primary, Xiong, Anqi, primary, Spyrou, Argyris, primary, Wicher, Grzegorz, primary, Marinescu, Voichita D., primary, Edqvist, Per-Henrik D., primary, Zhang, Lei, primary, Essand, Magnus, primary, Dimberg, Anna, primary, Smits, Anja, primary, Ilan, Neta, primary, Vlodavsky, Israel, primary, Li, Jin-Ping, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

35. Supplementary Figure S3 from Inhibition of Heparanase in Pediatric Brain Tumor Cells Attenuates their Proliferation, Invasive Capacity, and In Vivo Tumor Growth

Author

Spyrou, Argyris, primary, Kundu, Soumi, primary, Haseeb, Lulu, primary, Yu, Di, primary, Olofsson, Tommie, primary, Dredge, Keith, primary, Hammond, Edward, primary, Barash, Uri, primary, Vlodavsky, Israel, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

36. Kundu et al, Supplementary Figure 1 from Heparanase Promotes Glioma Progression and Is Inversely Correlated with Patient Survival

Author

Kundu, Soumi, primary, Xiong, Anqi, primary, Spyrou, Argyris, primary, Wicher, Grzegorz, primary, Marinescu, Voichita D., primary, Edqvist, Per-Henrik D., primary, Zhang, Lei, primary, Essand, Magnus, primary, Dimberg, Anna, primary, Smits, Anja, primary, Ilan, Neta, primary, Vlodavsky, Israel, primary, Li, Jin-Ping, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

37. Data from Inhibition of Heparanase in Pediatric Brain Tumor Cells Attenuates their Proliferation, Invasive Capacity, and In Vivo Tumor Growth

Author

Spyrou, Argyris, primary, Kundu, Soumi, primary, Haseeb, Lulu, primary, Yu, Di, primary, Olofsson, Tommie, primary, Dredge, Keith, primary, Hammond, Edward, primary, Barash, Uri, primary, Vlodavsky, Israel, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

38. Kundu et al, Supplementary Figure 4 from Heparanase Promotes Glioma Progression and Is Inversely Correlated with Patient Survival

Author

Kundu, Soumi, primary, Xiong, Anqi, primary, Spyrou, Argyris, primary, Wicher, Grzegorz, primary, Marinescu, Voichita D., primary, Edqvist, Per-Henrik D., primary, Zhang, Lei, primary, Essand, Magnus, primary, Dimberg, Anna, primary, Smits, Anja, primary, Ilan, Neta, primary, Vlodavsky, Israel, primary, Li, Jin-Ping, primary, and Forsberg-Nilsson, Karin, primary

Published

2023

39. Supplementary Figure Legends from Heparanase 2 Attenuates Head and Neck Tumor Vascularity and Growth

Author

Gross-Cohen, Miriam, primary, Feld, Sari, primary, Doweck, Ilana, primary, Neufeld, Gera, primary, Hasson, Peleg, primary, Arvatz, Gil, primary, Barash, Uri, primary, Naroditsky, Inna, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023

40. Supplementary Table 1 from Heparanase Accelerates Obesity-Associated Breast Cancer Progression

Author

Hermano, Esther, primary, Goldberg, Rachel, primary, Rubinstein, Ariel M., primary, Sonnenblick, Amir, primary, Maly, Bella, primary, Nahmias, Daniela, primary, Li, Jin-Ping, primary, Bakker, Marinka A.H., primary, van der Vlag, Johan, primary, Vlodavsky, Israel, primary, Peretz, Tamar, primary, and Elkin, Michael, primary

Published

2023

41. Supplementary Figure S1 from Function of Heparanase in Prostate Tumorigenesis: Potential for Therapy

Author

Lerner, Immanuel, primary, Baraz, Leah, primary, Pikarsky, Eli, primary, Meirovitz, Amichay, primary, Edovitsky, Evgeny, primary, Peretz, Tamar, primary, Vlodavsky, Israel, primary, and Elkin, Michael, primary

Published

2023

42. Supplementary Figures from Heparanase Accelerates Obesity-Associated Breast Cancer Progression

Author

Hermano, Esther, primary, Goldberg, Rachel, primary, Rubinstein, Ariel M., primary, Sonnenblick, Amir, primary, Maly, Bella, primary, Nahmias, Daniela, primary, Li, Jin-Ping, primary, Bakker, Marinka A.H., primary, van der Vlag, Johan, primary, Vlodavsky, Israel, primary, Peretz, Tamar, primary, and Elkin, Michael, primary

Published

2023

43. Supplementary Data from Heparanase Accelerates Obesity-Associated Breast Cancer Progression

Author

Hermano, Esther, primary, Goldberg, Rachel, primary, Rubinstein, Ariel M., primary, Sonnenblick, Amir, primary, Maly, Bella, primary, Nahmias, Daniela, primary, Li, Jin-Ping, primary, Bakker, Marinka A.H., primary, van der Vlag, Johan, primary, Vlodavsky, Israel, primary, Peretz, Tamar, primary, and Elkin, Michael, primary

Published

2023

44. Supplementary Data from Heparanase and Chemotherapy Synergize to Drive Macrophage Activation and Enhance Tumor Growth

Author

Bhattacharya, Udayan, primary, Gutter-Kapon, Lilach, primary, Kan, Tal, primary, Boyango, Ilanit, primary, Barash, Uri, primary, Yang, Shi-Ming, primary, Liu, JingJing, primary, Gross-Cohen, Miriam, primary, Sanderson, Ralph D., primary, Shaked, Yuval, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023

45. Data from Heparanase 2 Attenuates Head and Neck Tumor Vascularity and Growth

Author

Gross-Cohen, Miriam, primary, Feld, Sari, primary, Doweck, Ilana, primary, Neufeld, Gera, primary, Hasson, Peleg, primary, Arvatz, Gil, primary, Barash, Uri, primary, Naroditsky, Inna, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023

46. Supplementary Figure S3 from Heparanase 2 Attenuates Head and Neck Tumor Vascularity and Growth

Author

Gross-Cohen, Miriam, primary, Feld, Sari, primary, Doweck, Ilana, primary, Neufeld, Gera, primary, Hasson, Peleg, primary, Arvatz, Gil, primary, Barash, Uri, primary, Naroditsky, Inna, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023

47. Data from Heparanase and Chemotherapy Synergize to Drive Macrophage Activation and Enhance Tumor Growth

Author

Bhattacharya, Udayan, primary, Gutter-Kapon, Lilach, primary, Kan, Tal, primary, Boyango, Ilanit, primary, Barash, Uri, primary, Yang, Shi-Ming, primary, Liu, JingJing, primary, Gross-Cohen, Miriam, primary, Sanderson, Ralph D., primary, Shaked, Yuval, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023

48. Data from Heparanase Accelerates Obesity-Associated Breast Cancer Progression

Author

Hermano, Esther, primary, Goldberg, Rachel, primary, Rubinstein, Ariel M., primary, Sonnenblick, Amir, primary, Maly, Bella, primary, Nahmias, Daniela, primary, Li, Jin-Ping, primary, Bakker, Marinka A.H., primary, van der Vlag, Johan, primary, Vlodavsky, Israel, primary, Peretz, Tamar, primary, and Elkin, Michael, primary

Published

2023

49. Data from Function of Heparanase in Prostate Tumorigenesis: Potential for Therapy

Author

Lerner, Immanuel, primary, Baraz, Leah, primary, Pikarsky, Eli, primary, Meirovitz, Amichay, primary, Edovitsky, Evgeny, primary, Peretz, Tamar, primary, Vlodavsky, Israel, primary, and Elkin, Michael, primary

Published

2023

50. Data from Heparanase Cooperates with Ras to Drive Breast and Skin Tumorigenesis

Author

Boyango, Ilanit, primary, Barash, Uri, primary, Naroditsky, Inna, primary, Li, Jin-Ping, primary, Hammond, Edward, primary, Ilan, Neta, primary, and Vlodavsky, Israel, primary

Published

2023