Christine M Grimaldi1. 1. Department of Medicine, Columbia University, 1130 St. Nicholas Avenue, New York, NY 10032, USA.
Abstract
PURPOSE OF REVIEW: For many decades, it has been speculated that sex hormones play a role in systemic lupus erythematosus. Recent data accumulated during the past few years provide striking evidence that hormonal modulation of B cells can have a profound impact on the survival, maturation and repertoire selection of autoreactive B cells and begin to explain the sex bias associated with the condition. RECENT FINDINGS: While there are still insufficient clinical data to define a role for estrogen or prolactin in human systemic lupus erythematosus, recent studies of anti-DNA antibody transgenic mice clearly demonstrate that an elevation in either estrogen or prolactin breaks tolerance of high affinity DNA-reactive B cells and induces a lupus phenotype. B cells with the same antigenic specificities are rescued by either estrogen or prolactin, but estrogen promotes the survival and activation of the T independent marginal zone B cell subset, while prolactin promotes the survival and activation of the T dependent follicular B cell subset. SUMMARY: Elevations in the levels of estrogen or prolactin can promote the survival and activation of high affinity autoreactive B cells. These hormones engage different B cell pathways to interfere with B cell tolerance. The identification of systemic lupus erythematosus patients with either an estrogen-responsive or prolactin-responsive disease will further the development of therapeutics that can specifically modulate hormonal responses.
PURPOSE OF REVIEW: For many decades, it has been speculated that sex hormones play a role in systemic lupus erythematosus. Recent data accumulated during the past few years provide striking evidence that hormonal modulation of B cells can have a profound impact on the survival, maturation and repertoire selection of autoreactive B cells and begin to explain the sex bias associated with the condition. RECENT FINDINGS: While there are still insufficient clinical data to define a role for estrogen or prolactin in humansystemic lupus erythematosus, recent studies of anti-DNA antibody transgenic mice clearly demonstrate that an elevation in either estrogen or prolactin breaks tolerance of high affinity DNA-reactive B cells and induces a lupus phenotype. B cells with the same antigenic specificities are rescued by either estrogen or prolactin, but estrogen promotes the survival and activation of the T independent marginal zone B cell subset, while prolactin promotes the survival and activation of the T dependent follicular B cell subset. SUMMARY: Elevations in the levels of estrogen or prolactin can promote the survival and activation of high affinity autoreactive B cells. These hormones engage different B cell pathways to interfere with B cell tolerance. The identification of systemic lupus erythematosuspatients with either an estrogen-responsive or prolactin-responsive disease will further the development of therapeutics that can specifically modulate hormonal responses.
Authors: Jennifer Cialone; Heather Adams; Erika F Augustine; Frederick J Marshall; Jennifer M Kwon; Nicole Newhouse; Amy Vierhile; Erika Levy; Leon S Dure; Katherine R Rose; Denia Ramirez-Montealegre; Elisabeth A de Blieck; Jonathan W Mink Journal: J Inherit Metab Dis Date: 2011-12-14 Impact factor: 4.982