Patent application number | Description | Published |
20090155824 | METHODS FOR ANTIBODY ENGINEERING - The invention provides a method for identifying positions of an antibody that can be modified without significantly reducing the binding activity of the antibody. In many embodiments, the method involves identifying a substitutable position in a parent antibody by comparing its amino acid sequence to the amino acid sequences of a number of related antibodies that each bind to the same antigen as the parent antibody. The amino acid at the substitutable position may be substituted for a different amino acid without significantly affecting the activity of the antibody. The subject methods may be employed to change the amino acid sequence of a CDR without significantly reducing the affinity of the antibody of the antibody, in humanization methods, or in other antibody engineering methods. The invention finds use in a variety of therapeutic, diagnostic and research applications. | 06-18-2009 |
20090202558 | TNFalpha-NEUTRALIZING ANTIBODIES - The invention provides monoclonal antibodies that neutralize TNFα activity. The monoclonal antibodies may be rabbit monoclonal antibodies or monoclonal antibodies having CDR regions derived from those rabbit monoclonal antibodies. In certain embodiments, the monoclonal antibodies may be humanized. Methods of using the subject antibodies to inhibit TNFα activity, methods of treatment using those antibodies and kits containing the same are also provided. The invention finds use in a variety of research and medical applications. | 08-13-2009 |
20110243936 | TNFalpha-NEUTRALIZING ANTIBODIES - The invention provides monoclonal antibodies that neutralize TNFα activity. The monoclonal antibodies may be rabbit monoclonal antibodies or monoclonal antibodies having CDR regions derived from those rabbit monoclonal antibodies. In certain embodiments, the monoclonal antibodies may be humanized. Methods of using the subject antibodies to inhibit TNFα activity, methods of treatment using those antibodies and kits containing the same are also provided. The invention finds use in a variety of research and medical applications. | 10-06-2011 |
20120003671 | METHODS FOR ANTIBODY ENGINEERING - The invention provides a method for identifying positions of an antibody that can be modified without significantly reducing the binding activity of the antibody. In many embodiments, the method involves identifying a substitutable position in a parent antibody by comparing its amino acid sequence to the amino acid sequences of a number of related antibodies that each bind to the same antigen as the parent antibody. The amino acid at the substitutable position may be substituted for a different amino acid without significantly affecting the activity of the antibody. The subject methods may be employed to change the amino acid sequence of a CDR without significantly reducing the affinity of the antibody of the antibody, in humanization methods, or in other antibody engineering methods. The invention finds use in a variety of therapeutic, diagnostic and research applications. | 01-05-2012 |
20120269809 | TNFalpha-Neutralizing Antibodies - The invention provides monoclonal antibodies that neutralize TNFα activity. The monoclonal antibodies may be rabbit monoclonal antibodies or monoclonal antibodies having CDR regions derived from those rabbit monoclonal antibodies. In certain embodiments, the monoclonal antibodies may be humanized. Methods of using the subject antibodies to inhibit TNFα activity, methods of treatment using those antibodies and kits containing the same are also provided. The invention finds use in a variety of research and medical applications. | 10-25-2012 |
20120329069 | METHODS FOR ANTIBODY ENGINEERING - The invention provides a method for identifying positions of an antibody that can be modified without significantly reducing the binding activity of the antibody. In many embodiments, the method involves identifying a substitutable position in a parent antibody by comparing its amino acid sequence to the amino acid sequences of a number of related antibodies that each bind to the same antigen as the parent antibody. The amino acid at the substitutable position may be substituted for a different amino acid without significantly affecting the activity of the antibody. The subject methods may be employed to change the amino acid sequence of a CDR without significantly reducing the affinity of the antibody of the antibody, in humanization methods, or in other antibody engineering methods. The invention finds use in a variety of therapeutic, diagnostic and research applications. | 12-27-2012 |
20150038370 | Methods for Antibody Engineering - The invention provides a method for identifying positions of an antibody that can be modified without significantly reducing the binding activity of the antibody. In many embodiments, the method involves identifying a substitutable position in a parent antibody by comparing its amino acid sequence to the amino acid sequences of a number of related antibodies that each bind to the same antigen as the parent antibody. The amino acid at the substitutable position may be substituted for a different amino acid without significantly affecting the activity of the antibody. The subject methods may be employed to change the amino acid sequence of a CDR without significantly reducing the affinity of the antibody of the antibody, in humanization methods, or in other antibody engineering methods. The invention finds use in a variety of therapeutic, diagnostic and research applications. | 02-05-2015 |
20150346208 | PD-L1 Antibodies and Uses Thereof - Provided herein are novel PD-L1 antibodies and methods for using the same for diagnosing a medical condition associated with elevated PD-L1 levels (e.g., cancer) in subjects in need thereof and antigen binding fragments thereof. The PD-L1 antibodies and antigen binding fragments are also useful in evaluating the efficacy of a particular therapeutic regime in a subject diagnosed as having a PD-L1-related medical condition. | 12-03-2015 |