A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models
Background: Antibody recruiting molecules (ARM) represent a new modality in immunotherapy of cancer. These are bifunctional molecules composed of two active termini connected by a linker. One of the termini binds to a target molecule on a cancer cell. The other terminus can recruit endogenous IgG an...
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| Veröffentlicht in: | Blood 2019-11, Vol.134 (Supplement_1), p.1820-1820 |
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| creator | Bunin, Anna McGrath, Katy Rossi, Ann Marie Welsch, Matthew Vidal, Christian Trinh, David Spiegel, David Rastelli, Luca Alvarez, Enrique |
| description | Background:
Antibody recruiting molecules (ARM) represent a new modality in immunotherapy of cancer. These are bifunctional molecules composed of two active termini connected by a linker. One of the termini binds to a target molecule on a cancer cell. The other terminus can recruit endogenous IgG antibodies independent of their antigen binding specificity representing a breakthrough improvement to previous approaches (Murelli et al.J Am Chem Soc. 2009). We named this active moiety a universal antibody binding terminus (uABT). As a result of antibody recruitment to the cell surface, the target cell is “opsonized” by antibodies which then bring in the immune effector cells to eliminate the target through various antibody-dependent destruction mechanisms.
Multiple myeloma is a neoplasm that arises from terminally differentiated immunoglobulin producing long-lived plasma cells with 32,000 new cases diagnosed each year.
Kleo Pharmaceuticals has developed a series of compounds, CD38-ARM which target human CD38 highly expressed by multiple myeloma cells. CD38 -ARM compounds are therapeutically active in three distinct in vivo models without depleting CD38 expressing immune effector cells like existing therapeutic antibodies such as Daratumumab.
Methods:
CD38-ARM compounds were tested in three independent in vivo models. In the first model, intraperitoneal Daudi xenograft in SCID mice, 20x106 fluorescently labelled Burkitt lymphoma CD38-expressing Daudi cells were injected into SCID mice and treated with 3 mg/kg of compounds. Peritoneal exudates were examined 24 hours later for percentages and absolute numbers of Daudi cells recovered. Activity of compounds was further tested in a MOLP-8 multiple myeloma cell xenograft model in nude mice. Animals received 106 MOLP8 cells subcutaneously, and were treated with a daily dose of 10 mg/kg after tumor volumes of 150 mm3 were reached. Finally, CD38-ARM efficacy was examined in hu IL-15 transgenic NOG mice that have been preconditioned with busulfan and reconstituted i.p. with 2x106human NK cells. Three weeks after reconstitution, 5x106RAJI cells expressing CD38 were implanted s.c. and treatment commenced a week later with 10 mg/kg QDx14. Mice were monitored for NK cell levels and activation status in the blood during the whole study duration by flow cytometry.
Results:
CD38-uAbt compounds are able to induce clearance of Burkitt's lymphoma Daudi cells expressing high levels of CD38 in a SCID mouse intraperitoneal model. In |
| doi_str_mv | 10.1182/blood-2019-130838 |
| format | Article |
| fullrecord | <record><control><sourceid>elsevier_cross</sourceid><recordid>TN_cdi_crossref_primary_10_1182_blood_2019_130838</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><els_id>S0006497118597378</els_id><sourcerecordid>S0006497118597378</sourcerecordid><originalsourceid>FETCH-LOGICAL-c1858-896ae555024284410aa90d7f462d967a94c3d9545792d7d87aa93fdbe052e5c43</originalsourceid><addsrcrecordid>eNp9kcGO0zAURSMEEmXgA9i9JSwCthM3jlh10gEqDSChDtvItV9mHkrsynaq6d_yKTh01qze4r57dKRbFG85-8C5Eh8Po_e2FIy3Ja-YqtSzYsWlUCVjgj0vVoyxdVm3DX9ZvIrxN2O8roRcFX828N2fcIRu1DGCH-CahtmZRN7pEXbTNDufHjDoI86JDOwfdIKbx-PoKUXQcOfohCHm341LdPD2nAnOkruHPYaJ3Bzh3by53r-H5OEnmjBTBjjr79H5HD7VCOPy0OE4LviAMS6Mblsp2OLkXUxBJ4Sdg1908oDDQEabM5DLTgERthQTZfNMpCn7fPMWx_i6eDHoMeKbp3tV3H2-2Xdfy9sfX3bd5rY0XElVqnatUUrJRC1UXXOmdctsM9RrYdt1o9vaVLaVtWxaYRurmpxXgz0gkwKlqaurgl-4JvgYAw79MWSNcO4565eJ-n8T9ctE_WWi3Pl06WRPPBGGPhpCZ9BSQJN66-k_7b_PB5zS</addsrcrecordid><sourcetype>Aggregation Database</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype></control><display><type>article</type><title>A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models</title><source>Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals</source><source>Alma/SFX Local Collection</source><creator>Bunin, Anna ; McGrath, Katy ; Rossi, Ann Marie ; Welsch, Matthew ; Vidal, Christian ; Trinh, David ; Spiegel, David ; Rastelli, Luca ; Alvarez, Enrique</creator><creatorcontrib>Bunin, Anna ; McGrath, Katy ; Rossi, Ann Marie ; Welsch, Matthew ; Vidal, Christian ; Trinh, David ; Spiegel, David ; Rastelli, Luca ; Alvarez, Enrique</creatorcontrib><description>Background:
Antibody recruiting molecules (ARM) represent a new modality in immunotherapy of cancer. These are bifunctional molecules composed of two active termini connected by a linker. One of the termini binds to a target molecule on a cancer cell. The other terminus can recruit endogenous IgG antibodies independent of their antigen binding specificity representing a breakthrough improvement to previous approaches (Murelli et al.J Am Chem Soc. 2009). We named this active moiety a universal antibody binding terminus (uABT). As a result of antibody recruitment to the cell surface, the target cell is “opsonized” by antibodies which then bring in the immune effector cells to eliminate the target through various antibody-dependent destruction mechanisms.
Multiple myeloma is a neoplasm that arises from terminally differentiated immunoglobulin producing long-lived plasma cells with 32,000 new cases diagnosed each year.
Kleo Pharmaceuticals has developed a series of compounds, CD38-ARM which target human CD38 highly expressed by multiple myeloma cells. CD38 -ARM compounds are therapeutically active in three distinct in vivo models without depleting CD38 expressing immune effector cells like existing therapeutic antibodies such as Daratumumab.
Methods:
CD38-ARM compounds were tested in three independent in vivo models. In the first model, intraperitoneal Daudi xenograft in SCID mice, 20x106 fluorescently labelled Burkitt lymphoma CD38-expressing Daudi cells were injected into SCID mice and treated with 3 mg/kg of compounds. Peritoneal exudates were examined 24 hours later for percentages and absolute numbers of Daudi cells recovered. Activity of compounds was further tested in a MOLP-8 multiple myeloma cell xenograft model in nude mice. Animals received 106 MOLP8 cells subcutaneously, and were treated with a daily dose of 10 mg/kg after tumor volumes of 150 mm3 were reached. Finally, CD38-ARM efficacy was examined in hu IL-15 transgenic NOG mice that have been preconditioned with busulfan and reconstituted i.p. with 2x106human NK cells. Three weeks after reconstitution, 5x106RAJI cells expressing CD38 were implanted s.c. and treatment commenced a week later with 10 mg/kg QDx14. Mice were monitored for NK cell levels and activation status in the blood during the whole study duration by flow cytometry.
Results:
CD38-uAbt compounds are able to induce clearance of Burkitt's lymphoma Daudi cells expressing high levels of CD38 in a SCID mouse intraperitoneal model. In addition, we show efficacy of one of these compounds in a multiple myeloma xenograft model in nude mice. Using the MOLP8 subcutaneously implanted tumor model we show that administration of our lead molecule is able to induce 50% tumor growth inhibition (TGI) after a daily dosing schedule against this tumor. This activity is comparable to a pharmacologically relevant dose of Daratumumab. Finally, we demonstrate that CD38-ARM treatment shows significant efficacy in humanized mouse model, where IL-15 Tg NOG mice have been reconstituted with human NK cells prior to tumor implantation. In this model daily dosing with the CD38-ARM resulted in up to 70% TGI when compared to untreated control groups. Using this dose/schedule, the molecule did not elicit NK cell depletion as noted in the Daratumumab group.
Conclusions:
We demonstrated that CD38-ARM compounds are therapeutically active in three distinct in vivo models. Depletion of Daudi cells in a peritoneal SCID model provides strong evidence for the CD38-ARM's capacity to engage macrophage effector functions. Profound inhibition of tumor growth in the NK cell centered humanized hIL-15 Tg NOG mouse model indicates that killing of target cells is executed by human NK cells and provides a foundation to advancing our compounds towards the clinic. Overall, our results demonstrate value of CD38-ARM molecules both as stand-alone therapeutic as well as a platform to develop compounds tailored to a specific indication, by varying target binding moiety of the molecule. Our results also indicate that CD38-ARM compounds engage a variety of effector mechanisms involved in tumor clearance and tumor growth delay, indicating therapeutic potential across a wide range of clinical settings.
Bunin:Kleo pharmaceuticals: Employment, Equity Ownership. McGrath:Kleo pharmaceuticals: Employment, Equity Ownership. Rossi:Kleo pharmaceuticals: Employment, Equity Ownership. Welsch:Kleo pharmaceuticals: Employment, Equity Ownership. Vidal:Kleo pharmaceuticals: Employment, Equity Ownership. Trinh:Kleo pharmaceuticals: Employment, Equity Ownership. Spiegel:Kleo pharmaceuticals: Equity Ownership. Rastelli:Kleo pharmaceuticals: Employment, Equity Ownership. Alvarez:Kleo pharmaceuticals: Employment, Equity Ownership.</description><identifier>ISSN: 0006-4971</identifier><identifier>EISSN: 1528-0020</identifier><identifier>DOI: 10.1182/blood-2019-130838</identifier><language>eng</language><publisher>Elsevier Inc</publisher><ispartof>Blood, 2019-11, Vol.134 (Supplement_1), p.1820-1820</ispartof><rights>2019 American Society of Hematology</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c1858-896ae555024284410aa90d7f462d967a94c3d9545792d7d87aa93fdbe052e5c43</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,778,782,27911,27912</link.rule.ids></links><search><creatorcontrib>Bunin, Anna</creatorcontrib><creatorcontrib>McGrath, Katy</creatorcontrib><creatorcontrib>Rossi, Ann Marie</creatorcontrib><creatorcontrib>Welsch, Matthew</creatorcontrib><creatorcontrib>Vidal, Christian</creatorcontrib><creatorcontrib>Trinh, David</creatorcontrib><creatorcontrib>Spiegel, David</creatorcontrib><creatorcontrib>Rastelli, Luca</creatorcontrib><creatorcontrib>Alvarez, Enrique</creatorcontrib><title>A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models</title><title>Blood</title><description>Background:
Antibody recruiting molecules (ARM) represent a new modality in immunotherapy of cancer. These are bifunctional molecules composed of two active termini connected by a linker. One of the termini binds to a target molecule on a cancer cell. The other terminus can recruit endogenous IgG antibodies independent of their antigen binding specificity representing a breakthrough improvement to previous approaches (Murelli et al.J Am Chem Soc. 2009). We named this active moiety a universal antibody binding terminus (uABT). As a result of antibody recruitment to the cell surface, the target cell is “opsonized” by antibodies which then bring in the immune effector cells to eliminate the target through various antibody-dependent destruction mechanisms.
Multiple myeloma is a neoplasm that arises from terminally differentiated immunoglobulin producing long-lived plasma cells with 32,000 new cases diagnosed each year.
Kleo Pharmaceuticals has developed a series of compounds, CD38-ARM which target human CD38 highly expressed by multiple myeloma cells. CD38 -ARM compounds are therapeutically active in three distinct in vivo models without depleting CD38 expressing immune effector cells like existing therapeutic antibodies such as Daratumumab.
Methods:
CD38-ARM compounds were tested in three independent in vivo models. In the first model, intraperitoneal Daudi xenograft in SCID mice, 20x106 fluorescently labelled Burkitt lymphoma CD38-expressing Daudi cells were injected into SCID mice and treated with 3 mg/kg of compounds. Peritoneal exudates were examined 24 hours later for percentages and absolute numbers of Daudi cells recovered. Activity of compounds was further tested in a MOLP-8 multiple myeloma cell xenograft model in nude mice. Animals received 106 MOLP8 cells subcutaneously, and were treated with a daily dose of 10 mg/kg after tumor volumes of 150 mm3 were reached. Finally, CD38-ARM efficacy was examined in hu IL-15 transgenic NOG mice that have been preconditioned with busulfan and reconstituted i.p. with 2x106human NK cells. Three weeks after reconstitution, 5x106RAJI cells expressing CD38 were implanted s.c. and treatment commenced a week later with 10 mg/kg QDx14. Mice were monitored for NK cell levels and activation status in the blood during the whole study duration by flow cytometry.
Results:
CD38-uAbt compounds are able to induce clearance of Burkitt's lymphoma Daudi cells expressing high levels of CD38 in a SCID mouse intraperitoneal model. In addition, we show efficacy of one of these compounds in a multiple myeloma xenograft model in nude mice. Using the MOLP8 subcutaneously implanted tumor model we show that administration of our lead molecule is able to induce 50% tumor growth inhibition (TGI) after a daily dosing schedule against this tumor. This activity is comparable to a pharmacologically relevant dose of Daratumumab. Finally, we demonstrate that CD38-ARM treatment shows significant efficacy in humanized mouse model, where IL-15 Tg NOG mice have been reconstituted with human NK cells prior to tumor implantation. In this model daily dosing with the CD38-ARM resulted in up to 70% TGI when compared to untreated control groups. Using this dose/schedule, the molecule did not elicit NK cell depletion as noted in the Daratumumab group.
Conclusions:
We demonstrated that CD38-ARM compounds are therapeutically active in three distinct in vivo models. Depletion of Daudi cells in a peritoneal SCID model provides strong evidence for the CD38-ARM's capacity to engage macrophage effector functions. Profound inhibition of tumor growth in the NK cell centered humanized hIL-15 Tg NOG mouse model indicates that killing of target cells is executed by human NK cells and provides a foundation to advancing our compounds towards the clinic. Overall, our results demonstrate value of CD38-ARM molecules both as stand-alone therapeutic as well as a platform to develop compounds tailored to a specific indication, by varying target binding moiety of the molecule. Our results also indicate that CD38-ARM compounds engage a variety of effector mechanisms involved in tumor clearance and tumor growth delay, indicating therapeutic potential across a wide range of clinical settings.
Bunin:Kleo pharmaceuticals: Employment, Equity Ownership. McGrath:Kleo pharmaceuticals: Employment, Equity Ownership. Rossi:Kleo pharmaceuticals: Employment, Equity Ownership. Welsch:Kleo pharmaceuticals: Employment, Equity Ownership. Vidal:Kleo pharmaceuticals: Employment, Equity Ownership. Trinh:Kleo pharmaceuticals: Employment, Equity Ownership. Spiegel:Kleo pharmaceuticals: Equity Ownership. Rastelli:Kleo pharmaceuticals: Employment, Equity Ownership. Alvarez:Kleo pharmaceuticals: Employment, Equity Ownership.</description><issn>0006-4971</issn><issn>1528-0020</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNp9kcGO0zAURSMEEmXgA9i9JSwCthM3jlh10gEqDSChDtvItV9mHkrsynaq6d_yKTh01qze4r57dKRbFG85-8C5Eh8Po_e2FIy3Ja-YqtSzYsWlUCVjgj0vVoyxdVm3DX9ZvIrxN2O8roRcFX828N2fcIRu1DGCH-CahtmZRN7pEXbTNDufHjDoI86JDOwfdIKbx-PoKUXQcOfohCHm341LdPD2nAnOkruHPYaJ3Bzh3by53r-H5OEnmjBTBjjr79H5HD7VCOPy0OE4LviAMS6Mblsp2OLkXUxBJ4Sdg1908oDDQEabM5DLTgERthQTZfNMpCn7fPMWx_i6eDHoMeKbp3tV3H2-2Xdfy9sfX3bd5rY0XElVqnatUUrJRC1UXXOmdctsM9RrYdt1o9vaVLaVtWxaYRurmpxXgz0gkwKlqaurgl-4JvgYAw79MWSNcO4565eJ-n8T9ctE_WWi3Pl06WRPPBGGPhpCZ9BSQJN66-k_7b_PB5zS</recordid><startdate>20191113</startdate><enddate>20191113</enddate><creator>Bunin, Anna</creator><creator>McGrath, Katy</creator><creator>Rossi, Ann Marie</creator><creator>Welsch, Matthew</creator><creator>Vidal, Christian</creator><creator>Trinh, David</creator><creator>Spiegel, David</creator><creator>Rastelli, Luca</creator><creator>Alvarez, Enrique</creator><general>Elsevier Inc</general><scope>6I.</scope><scope>AAFTH</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20191113</creationdate><title>A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models</title><author>Bunin, Anna ; McGrath, Katy ; Rossi, Ann Marie ; Welsch, Matthew ; Vidal, Christian ; Trinh, David ; Spiegel, David ; Rastelli, Luca ; Alvarez, Enrique</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c1858-896ae555024284410aa90d7f462d967a94c3d9545792d7d87aa93fdbe052e5c43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Bunin, Anna</creatorcontrib><creatorcontrib>McGrath, Katy</creatorcontrib><creatorcontrib>Rossi, Ann Marie</creatorcontrib><creatorcontrib>Welsch, Matthew</creatorcontrib><creatorcontrib>Vidal, Christian</creatorcontrib><creatorcontrib>Trinh, David</creatorcontrib><creatorcontrib>Spiegel, David</creatorcontrib><creatorcontrib>Rastelli, Luca</creatorcontrib><creatorcontrib>Alvarez, Enrique</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>CrossRef</collection><jtitle>Blood</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Bunin, Anna</au><au>McGrath, Katy</au><au>Rossi, Ann Marie</au><au>Welsch, Matthew</au><au>Vidal, Christian</au><au>Trinh, David</au><au>Spiegel, David</au><au>Rastelli, Luca</au><au>Alvarez, Enrique</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models</atitle><jtitle>Blood</jtitle><date>2019-11-13</date><risdate>2019</risdate><volume>134</volume><issue>Supplement_1</issue><spage>1820</spage><epage>1820</epage><pages>1820-1820</pages><issn>0006-4971</issn><eissn>1528-0020</eissn><abstract>Background:
Antibody recruiting molecules (ARM) represent a new modality in immunotherapy of cancer. These are bifunctional molecules composed of two active termini connected by a linker. One of the termini binds to a target molecule on a cancer cell. The other terminus can recruit endogenous IgG antibodies independent of their antigen binding specificity representing a breakthrough improvement to previous approaches (Murelli et al.J Am Chem Soc. 2009). We named this active moiety a universal antibody binding terminus (uABT). As a result of antibody recruitment to the cell surface, the target cell is “opsonized” by antibodies which then bring in the immune effector cells to eliminate the target through various antibody-dependent destruction mechanisms.
Multiple myeloma is a neoplasm that arises from terminally differentiated immunoglobulin producing long-lived plasma cells with 32,000 new cases diagnosed each year.
Kleo Pharmaceuticals has developed a series of compounds, CD38-ARM which target human CD38 highly expressed by multiple myeloma cells. CD38 -ARM compounds are therapeutically active in three distinct in vivo models without depleting CD38 expressing immune effector cells like existing therapeutic antibodies such as Daratumumab.
Methods:
CD38-ARM compounds were tested in three independent in vivo models. In the first model, intraperitoneal Daudi xenograft in SCID mice, 20x106 fluorescently labelled Burkitt lymphoma CD38-expressing Daudi cells were injected into SCID mice and treated with 3 mg/kg of compounds. Peritoneal exudates were examined 24 hours later for percentages and absolute numbers of Daudi cells recovered. Activity of compounds was further tested in a MOLP-8 multiple myeloma cell xenograft model in nude mice. Animals received 106 MOLP8 cells subcutaneously, and were treated with a daily dose of 10 mg/kg after tumor volumes of 150 mm3 were reached. Finally, CD38-ARM efficacy was examined in hu IL-15 transgenic NOG mice that have been preconditioned with busulfan and reconstituted i.p. with 2x106human NK cells. Three weeks after reconstitution, 5x106RAJI cells expressing CD38 were implanted s.c. and treatment commenced a week later with 10 mg/kg QDx14. Mice were monitored for NK cell levels and activation status in the blood during the whole study duration by flow cytometry.
Results:
CD38-uAbt compounds are able to induce clearance of Burkitt's lymphoma Daudi cells expressing high levels of CD38 in a SCID mouse intraperitoneal model. In addition, we show efficacy of one of these compounds in a multiple myeloma xenograft model in nude mice. Using the MOLP8 subcutaneously implanted tumor model we show that administration of our lead molecule is able to induce 50% tumor growth inhibition (TGI) after a daily dosing schedule against this tumor. This activity is comparable to a pharmacologically relevant dose of Daratumumab. Finally, we demonstrate that CD38-ARM treatment shows significant efficacy in humanized mouse model, where IL-15 Tg NOG mice have been reconstituted with human NK cells prior to tumor implantation. In this model daily dosing with the CD38-ARM resulted in up to 70% TGI when compared to untreated control groups. Using this dose/schedule, the molecule did not elicit NK cell depletion as noted in the Daratumumab group.
Conclusions:
We demonstrated that CD38-ARM compounds are therapeutically active in three distinct in vivo models. Depletion of Daudi cells in a peritoneal SCID model provides strong evidence for the CD38-ARM's capacity to engage macrophage effector functions. Profound inhibition of tumor growth in the NK cell centered humanized hIL-15 Tg NOG mouse model indicates that killing of target cells is executed by human NK cells and provides a foundation to advancing our compounds towards the clinic. Overall, our results demonstrate value of CD38-ARM molecules both as stand-alone therapeutic as well as a platform to develop compounds tailored to a specific indication, by varying target binding moiety of the molecule. Our results also indicate that CD38-ARM compounds engage a variety of effector mechanisms involved in tumor clearance and tumor growth delay, indicating therapeutic potential across a wide range of clinical settings.
Bunin:Kleo pharmaceuticals: Employment, Equity Ownership. McGrath:Kleo pharmaceuticals: Employment, Equity Ownership. Rossi:Kleo pharmaceuticals: Employment, Equity Ownership. Welsch:Kleo pharmaceuticals: Employment, Equity Ownership. Vidal:Kleo pharmaceuticals: Employment, Equity Ownership. Trinh:Kleo pharmaceuticals: Employment, Equity Ownership. Spiegel:Kleo pharmaceuticals: Equity Ownership. Rastelli:Kleo pharmaceuticals: Employment, Equity Ownership. Alvarez:Kleo pharmaceuticals: Employment, Equity Ownership.</abstract><pub>Elsevier Inc</pub><doi>10.1182/blood-2019-130838</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record> |
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| title | A Novel Class of Bifunctional Immunotherapeutic That Exploits a Universal Antibody Binding Terminus (uABT) to Recruit Endogenous Antibodies to Cell Expressing CD38 Demonstrate In Vivo efficacy in Three Distinct Animal Models |
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