Global LAG-3 Inhibitor Market, Drug Sales, Price & Clinical Trials Insight 2028
Global LAG-3 Inhibitor Market, Drug Sales, Price & Clinical Trials Insight 2028
Abstract
Global LAG-3 Inhibitor Market, Drug Sales, Price & Clinical Trials Insight 2028 Report highlights:
• Global LAG-3 Inhibitor Drug Market Opportunity Assessment
• Number Of LAG-3 Inhibitor Drugs In Market: 1 Drug
• Approved LAG-3 Inhibitor Drug Dosage, Patent & Pricing Insight
• Number Of LAG-3 Inhibitor Drugs In Clinical Trials: > 35 Drugs
• LAG-3 Inhibitor Drugs Clinical Trials Insight By Company, Country, Indication, & Phase
• LAG-3 Targeted Therapy Approaches
• Competitive Landscape: Company Financials & Anti LAG-3 Antibodies in Trials
Lymphocyte-activation gene 3 (LAG-3) is a protein which was discovered in 1990 and found to be expressed on the cell surfaces of NK cells, activated T cells, B cells and plasmacytoid dendritic cells. LAG-3 is an immune checkpoint and has been considered as a target for developing drugs and therapies for the treatment of cancer, chronic infectious diseases and autoimmune diseases. In spite of the research activities spanning decades, it is believed that much of the knowledge about LAG-3, and especially those related to its mechanism of action, is still undiscovered. LAG-3 has potential as a therapeutic target for the management of several diseases, therefore it is essential to thoroughly investigate the protein and its functions to develop effective treatment strategies.
In last few decades, immune checkpoints have garnered interest of researchers as a result of which LAG-3 is probably the next most studied immune checkpoint after PD-1 and CTLA-4. Similar to the other immune checkpoint proteins, LAG-3 inhibits the function of cytotoxic cells after binding to its ligand, which is mainly the MHC class II molecule. Similarly, it also binds to the LSECtin, FGL1 and Galectin-3 as part of the MHC class II independent pathways, exerting additional immune suppressive effects. LAG-3 present on Treg cells also inhibits the proliferation of dendritic cells (DC). In another study, it was found that LAG-3 signaling downregulated the proliferation of NK cells. Therefore, with its effects inhibiting the proliferation and activation of a number of immune cells, LAG-3 develops an immunosuppressive environment, which fosters the proliferation and metastasis of cancer tumors. This property of LAG-3 has put it in limelight as a potential target for developing drugs and therapies directed towards the LAG-3.
Apart from cancer, LAG-3 is also said to have a role in the development of autoimmune disease and the induction of autoimmunity. In preclinical studies with non-obese diabetic (NOD) mouse models, the absence of LAG-3 was linked with a 100% occurrence of diabetes at an accelerated rate, which was otherwise delayed. The untapped proliferation of Treg cells in the absence of LAG-3 was the cause of for this. In another experiment, it was reported that the deficiency or inhibition of the LAG-3 increased the model’s susceptibility to developing autoimmunity induced by mercury. Further research showed that LAG-3 works in sync with the PD-1 immune checkpoint to delay or decrease the possibility of the initiation of autoimmune diseases and that immune exhaustion is linked with a less severe autoimmune disease.
From these research studies it is obvious that inhibition of immune cells by LAG-3 is both friend and foe. In the case of cancer, suppression of the immune system is detrimental for the body but in others, unchecked growth of T cells has been linked with the development of autoimmune disease. The role of LAG-2 has been mainly studied in reference to cancer and many inhibitors have been developed and are being evaluated in clinical trials; however, studies analyzing its role in the development and progression of autoimmune diseases and infectious diseases is still lacking and there is a dearth of medications in the pipeline to address this problem.
As mentioned above, LAG-3 has a complex mechanism of action and researchers have not been able to fully understand its functions and its potential in the treatment of diseases. This calls for a more thorough research to understand the protein and its interactions and the extent to which these factors can be exploited to benefit human by treating disease. Future research also needs to focus on the effects of LAG-3 inhibition on other cells part from the conventional T cells.
Content
Table of Contents
1. Introduction to LAG-3 Inhibitor
1.1 Overview Of LAG-3 inhibitors
1.2 Mechanism of Action
1.3 LAG-3 Targeted Therapy Approaches
1.3.1 Targeting LAG-3 With Fusion Proteins
1.3.2 Targeting LAG-3 With Monoclonal Antibodies
1.3.3 Targeting LAG-3 With Bispecific Antibodies
2. LAG-3 Targeted Therapy In By Indication
2.1 Cancer
2.2 Viral Infections
2.3 Autoimmune Diseases
2.4 Parkinson Disease
3. Opdualag – 1st Approved LAG-3 Inhibitor Clinical Insight
4. Opdualag – 1st Approved LAG-3 Inhibitor Commercial Insight
4.1 Overview & Patent Analysis
4.2 Pricing & Dosage Analysis
4.3 Sales Analysis
5. Global LAG-3 Inhibitor Market
5.1 Current Market Overview
5.2 Market Opportunity Assessment
6. Global LAG-3 Inhibitor Clinical Trials Overview
6.1 By Company
6.2 By Country
6.3 By Indication
6.4 By Patient Segment
6.5 By Phase
7. Global LAG-3 Inhibitor Clinical Trials Insight 2023 -2028
7.1 Research
7.2 Preclinical
7.3 Phase-I
7.4 Phase-I/II
7.5 Phase-II
7.6 Phase-II/III
7.7 Phase-III
8. Global LAG-3 Inhibitor Market Dynamics
8.1 Market Drivers & Opportunities
8.2 Commercialization Challenges
9. Global LAG-3 Inhibitor Market Future Outlook
10. Competitive Landscape
10.1 Abeome Corporation
10.2 ABL Bio
10.3 Agenus
10.4 Akeso Biopharma
10.5 AnaptysBio
10.6 Bristol-Myers Squibb
10.7 Cancer Research UK
10.8 F-Star Therapeutics
10.9 Immutep
10.10 Incyte Corporation
10.11 Innovent Biologics
10.12 Ligand Pharmaceuticals
10.13 Merck
10.14 Shanghai Fosun Pharmaceutical
10.15 Y-Biologics
List of Tables
Table 4-1: Maximum Infusion Volumes and Concentration Ranges By Patient Group
Table 4-2: Recommended Opdualag Dosage Modifications For Adverse Reactions
Table 10-1: Agenus – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-2: AnaptysBio – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-3: Bristol Myers Squibb – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-4: F-Star – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-5: Immutep – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-6: Incyte Corporation – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-7: Innovent Biologics – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-8: Ligand Pharmaceuticals – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-9: Merck KGaA – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-10: Shanghai Fosun Pharmaceutical – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Global LAG-3 Inhibitor Market, Drug Sales, Price & Clinical Trials Insight 2028 Report highlights:
• Global LAG-3 Inhibitor Drug Market Opportunity Assessment
• Number Of LAG-3 Inhibitor Drugs In Market: 1 Drug
• Approved LAG-3 Inhibitor Drug Dosage, Patent & Pricing Insight
• Number Of LAG-3 Inhibitor Drugs In Clinical Trials: > 35 Drugs
• LAG-3 Inhibitor Drugs Clinical Trials Insight By Company, Country, Indication, & Phase
• LAG-3 Targeted Therapy Approaches
• Competitive Landscape: Company Financials & Anti LAG-3 Antibodies in Trials
Lymphocyte-activation gene 3 (LAG-3) is a protein which was discovered in 1990 and found to be expressed on the cell surfaces of NK cells, activated T cells, B cells and plasmacytoid dendritic cells. LAG-3 is an immune checkpoint and has been considered as a target for developing drugs and therapies for the treatment of cancer, chronic infectious diseases and autoimmune diseases. In spite of the research activities spanning decades, it is believed that much of the knowledge about LAG-3, and especially those related to its mechanism of action, is still undiscovered. LAG-3 has potential as a therapeutic target for the management of several diseases, therefore it is essential to thoroughly investigate the protein and its functions to develop effective treatment strategies.
In last few decades, immune checkpoints have garnered interest of researchers as a result of which LAG-3 is probably the next most studied immune checkpoint after PD-1 and CTLA-4. Similar to the other immune checkpoint proteins, LAG-3 inhibits the function of cytotoxic cells after binding to its ligand, which is mainly the MHC class II molecule. Similarly, it also binds to the LSECtin, FGL1 and Galectin-3 as part of the MHC class II independent pathways, exerting additional immune suppressive effects. LAG-3 present on Treg cells also inhibits the proliferation of dendritic cells (DC). In another study, it was found that LAG-3 signaling downregulated the proliferation of NK cells. Therefore, with its effects inhibiting the proliferation and activation of a number of immune cells, LAG-3 develops an immunosuppressive environment, which fosters the proliferation and metastasis of cancer tumors. This property of LAG-3 has put it in limelight as a potential target for developing drugs and therapies directed towards the LAG-3.
Apart from cancer, LAG-3 is also said to have a role in the development of autoimmune disease and the induction of autoimmunity. In preclinical studies with non-obese diabetic (NOD) mouse models, the absence of LAG-3 was linked with a 100% occurrence of diabetes at an accelerated rate, which was otherwise delayed. The untapped proliferation of Treg cells in the absence of LAG-3 was the cause of for this. In another experiment, it was reported that the deficiency or inhibition of the LAG-3 increased the model’s susceptibility to developing autoimmunity induced by mercury. Further research showed that LAG-3 works in sync with the PD-1 immune checkpoint to delay or decrease the possibility of the initiation of autoimmune diseases and that immune exhaustion is linked with a less severe autoimmune disease.
From these research studies it is obvious that inhibition of immune cells by LAG-3 is both friend and foe. In the case of cancer, suppression of the immune system is detrimental for the body but in others, unchecked growth of T cells has been linked with the development of autoimmune disease. The role of LAG-2 has been mainly studied in reference to cancer and many inhibitors have been developed and are being evaluated in clinical trials; however, studies analyzing its role in the development and progression of autoimmune diseases and infectious diseases is still lacking and there is a dearth of medications in the pipeline to address this problem.
As mentioned above, LAG-3 has a complex mechanism of action and researchers have not been able to fully understand its functions and its potential in the treatment of diseases. This calls for a more thorough research to understand the protein and its interactions and the extent to which these factors can be exploited to benefit human by treating disease. Future research also needs to focus on the effects of LAG-3 inhibition on other cells part from the conventional T cells.
Table of Contents
1. Introduction to LAG-3 Inhibitor
1.1 Overview Of LAG-3 inhibitors
1.2 Mechanism of Action
1.3 LAG-3 Targeted Therapy Approaches
1.3.1 Targeting LAG-3 With Fusion Proteins
1.3.2 Targeting LAG-3 With Monoclonal Antibodies
1.3.3 Targeting LAG-3 With Bispecific Antibodies
2. LAG-3 Targeted Therapy In By Indication
2.1 Cancer
2.2 Viral Infections
2.3 Autoimmune Diseases
2.4 Parkinson Disease
3. Opdualag – 1st Approved LAG-3 Inhibitor Clinical Insight
4. Opdualag – 1st Approved LAG-3 Inhibitor Commercial Insight
4.1 Overview & Patent Analysis
4.2 Pricing & Dosage Analysis
4.3 Sales Analysis
5. Global LAG-3 Inhibitor Market
5.1 Current Market Overview
5.2 Market Opportunity Assessment
6. Global LAG-3 Inhibitor Clinical Trials Overview
6.1 By Company
6.2 By Country
6.3 By Indication
6.4 By Patient Segment
6.5 By Phase
7. Global LAG-3 Inhibitor Clinical Trials Insight 2023 -2028
7.1 Research
7.2 Preclinical
7.3 Phase-I
7.4 Phase-I/II
7.5 Phase-II
7.6 Phase-II/III
7.7 Phase-III
8. Global LAG-3 Inhibitor Market Dynamics
8.1 Market Drivers & Opportunities
8.2 Commercialization Challenges
9. Global LAG-3 Inhibitor Market Future Outlook
10. Competitive Landscape
10.1 Abeome Corporation
10.2 ABL Bio
10.3 Agenus
10.4 Akeso Biopharma
10.5 AnaptysBio
10.6 Bristol-Myers Squibb
10.7 Cancer Research UK
10.8 F-Star Therapeutics
10.9 Immutep
10.10 Incyte Corporation
10.11 Innovent Biologics
10.12 Ligand Pharmaceuticals
10.13 Merck
10.14 Shanghai Fosun Pharmaceutical
10.15 Y-Biologics
List of Tables
Table 4-1: Maximum Infusion Volumes and Concentration Ranges By Patient Group
Table 4-2: Recommended Opdualag Dosage Modifications For Adverse Reactions
Table 10-1: Agenus – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-2: AnaptysBio – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-3: Bristol Myers Squibb – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-4: F-Star – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-5: Immutep – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-6: Incyte Corporation – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-7: Innovent Biologics – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-8: Ligand Pharmaceuticals – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-9: Merck KGaA – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Table 10-10: Shanghai Fosun Pharmaceutical – Financials & CD223 Antigen Inhibitors Drugs Clinical Trials Insight
Related Report
