Peace and Justice through a Feminist Lens: Gender Justice and the Women’s Court for the Former Yugoslavia

Post-conflict interventions to ‘deal with’ violent pasts have moved from exception to global norm. Early efforts to achieve peace and justice were critiqued as ‘gender-blind’—for failing to address sexual and gender-based violence, and neglecting the gender-specific interests and needs of women in transitional settings. The advent of UN Security Council resolutions on ‘Women, Peace and Security’ provided a key policy framework for integrating both women and gender issues into transitional justice processes and mechanisms. Despite this, gender justice and equality in (post-)conflict settings remain largely unachieved. This article explores efforts to attain gender-just peace in post-conflict Bosnia and Herzegovina (BiH). It critically examines the significance of a recent ‘bottom-up’ truth-telling project—the Women’s Court for the former Yugoslavia—as a locally engaged approach to achieving justice and redress for women impacted by armed conflict. Drawing on participant observation, documentary analysis, and interviews with women activists, the article evaluates the successes and shortcomings of responding to gendered forms of wartime violence through truth-telling. Extending Nancy Fraser’s tripartite model of justice to peacebuilding contexts, the article advances notions of recognition, redistribution and representation as crucial components of gender-just peace. It argues that recognizing women as victims and survivors of conflict, achieving a gender-equitable distribution of material and symbolic resources, and enabling women to participate as agents of transitional justice processes are all essential for transforming the structural inequalities that enable gender violence and discrimination to materialize before, during, and after conflict

The phospholipid PI(3,4)P2 is an apical identity determinant

Apical-basal polarization is essential for epithelial tissue formation, segregating cortical domains to perform distinct physiological functions. Cortical lipid asymmetry has emerged as a determinant of cell polarization. We report a network of phosphatidylinositol phosphate (PIP)-modifying enzymes, some of which are transcriptionally induced upon embedding epithelial cells in extracellular matrix, and that are essential for apical-basal polarization. Unexpectedly, we find that PI(3,4)P2 localization and function is distinct from the basolateral determinant PI(3,4,5)P3. PI(3,4)P2 localizes to the apical surface, and Rab11a-positive apical recycling endosomes. PI(3,4)P2 is produced by the 5-phosphatase SHIP1 and Class-II PI3-Kinases to recruit the endocytic regulatory protein SNX9 to basolateral domains that are being remodeled into apical surfaces. Perturbing PI(3,4)P2 levels results in defective polarization through subcortical retention of apically destined vesicles at apical membrane initiation sites. We conclude that PI(3,4)P2 is a determinant of apical membrane identity

The phospholipid PI(3,4)P2 is an apical identity determinant.

Apical-basal polarization is essential for epithelial tissue formation, segregating cortical domains to perform distinct physiological functions. Cortical lipid asymmetry has emerged as a determinant of cell polarization. We report a network of phosphatidylinositol phosphate (PIP)-modifying enzymes, some of which are transcriptionally induced upon embedding epithelial cells in extracellular matrix, and that are essential for apical-basal polarization. Unexpectedly, we find that PI(3,4)P2 localization and function is distinct from the basolateral determinant PI(3,4,5)P3. PI(3,4)P2 localizes to the apical surface, and Rab11a-positive apical recycling endosomes. PI(3,4)P2 is produced by the 5-phosphatase SHIP1 and Class-II PI3-Kinases to recruit the endocytic regulatory protein SNX9 to basolateral domains that are being remodeled into apical surfaces. Perturbing PI(3,4)P2 levels results in defective polarization through subcortical retention of apically destined vesicles at apical membrane initiation sites. We conclude that PI(3,4)P2 is a determinant of apical membrane identity

A molecular switch for the orientation of epithelial cell polarization

The formation of epithelial tissues containing lumens requires not only the apical-basolateral polarization of cells, but also the coordinated orientation of this polarity such that the apical surfaces of neighboring cells all point toward the central lumen. Defects in extracellular matrix (ECM) signaling lead to inverted polarity so that the apical surfaces face the surrounding ECM. We report a molecular switch mechanism controlling polarity orientation. ECM signals through a β1-integrin/FAK/p190RhoGAP complex to downregulate a RhoA/ROCK/Ezrin pathway at the ECM interface. PKCβII phosphorylates the apical identity-promoting Podocalyxin/NHERF1/Ezrin complex, removing Podocalyxin from the ECM-abutting cell surface and initiating its transcytosis to an apical membrane initiation site for lumen formation. Inhibition of this switch mechanism results in the retention of Podocalyxin at the ECM interface and the development instead of collective front-rear polarization and motility. Thus, ECM-derived signals control the morphogenesis of epithelial tissues by controlling the collective orientation of epithelial polarization