PURPOSE OF REVIEW: Development of immunological treatments for ovarian cancer has not been a conspicuous success story over the past few years. Only a handful of clinical trials have reported immunological responses, and correlation with clinical benefit has been elusive. Several recent studies presented in this review, however, point to a revival of optimism for the development of novel immunotherapeutic strategies. RECENT FINDINGS: The cloning and sequencing of CA125, coupled with novel structural and functional insights, undoubtedly represent important steps forward. The possibility that CA125 could play a role in evasion of immunity by ovarian tumors may represent a new challenge, but does not detract from its potential as a therapeutic target. Of the recent clinical trial reports, the most intriguing results were seen from immunotherapy with a conventional mouse monoclonal antibody specific for CA125, in which human anti-mouse antibody responses correlated significantly with improved survival of patients with advanced stage ovarian cancer and clinical evidence of recurrent disease at the time of treatment. SUMMARY: There is little doubt that CA125 will undergo a renaissance as an important target antigen for development of novel immunological treatments, particularly with regard to cellular therapies. Identification of other novel ovarian tumor antigens will also accelerate research focused on stimulation of T-cell immunity. Current research trends suggest a paradigm shift in emphasis from vaccines designed to elicit antibody responses to strategies such as dendritic cell vaccination that are designed to induce broader immunity, including ovarian tumor antigen-specific helper T-lymphocyte and cytotoxic T-lymphocyte responses.
PURPOSE OF REVIEW: Development of immunological treatments for ovarian cancer has not been a conspicuous success story over the past few years. Only a handful of clinical trials have reported immunological responses, and correlation with clinical benefit has been elusive. Several recent studies presented in this review, however, point to a revival of optimism for the development of novel immunotherapeutic strategies. RECENT FINDINGS: The cloning and sequencing of CA125, coupled with novel structural and functional insights, undoubtedly represent important steps forward. The possibility that CA125 could play a role in evasion of immunity by ovarian tumors may represent a new challenge, but does not detract from its potential as a therapeutic target. Of the recent clinical trial reports, the most intriguing results were seen from immunotherapy with a conventional mouse monoclonal antibody specific for CA125, in which human anti-mouse antibody responses correlated significantly with improved survival of patients with advanced stage ovarian cancer and clinical evidence of recurrent disease at the time of treatment. SUMMARY: There is little doubt that CA125 will undergo a renaissance as an important target antigen for development of novel immunological treatments, particularly with regard to cellular therapies. Identification of other novel ovarian tumor antigens will also accelerate research focused on stimulation of T-cell immunity. Current research trends suggest a paradigm shift in emphasis from vaccines designed to elicit antibody responses to strategies such as dendritic cell vaccination that are designed to induce broader immunity, including ovarian tumor antigen-specific helper T-lymphocyte and cytotoxic T-lymphocyte responses.
Authors: Cara C Bertozzi; Cheng-Yi Chang; Sonya Jairaj; Xiaochuan Shan; Jia Huang; Barbara L Weber; Christina S Chu; Richard G Carroll Journal: In Vitro Cell Dev Biol Anim Date: 2006 Mar-Apr Impact factor: 2.416
Authors: Douglas J Hanlon; Paulomi B Aldo; Lesley Devine; Ayesha B Alvero; Anna K Engberg; Richard Edelson; Gil Mor Journal: Am J Reprod Immunol Date: 2011-01-18 Impact factor: 3.886
Authors: Renee Vermeij; Toos Daemen; Geertruida H de Bock; Pauline de Graeff; Ninke Leffers; Annechien Lambeck; Klaske A ten Hoor; Harry Hollema; Ate G J van der Zee; Hans W Nijman Journal: Clin Dev Immunol Date: 2010-09-15
Authors: Fatimah Jaafar; Elda Righi; Victoria Lindstrom; Christine Linton; Mahrokh Nohadani; Susan Van Noorden; Tyler Lloyd; Joshua Poznansky; Gordon Stamp; Roberto Dina; Dulcie V Coleman; Mark C Poznansky Journal: Am J Pathol Date: 2009-10 Impact factor: 4.307