MAPIB (microtubule-associated protein 1B) binds to microtubules and regulates microtubule dynamics. Previously, we showed calcium-dependent interaction between MAP1B and a calcium-binding protein ALG-2 (apoptosis-linked gene 2), which is involved in regulation of the protein secretion pathway. Although ALG-2 generally binds to proteins through two consensus binding motifs such as ABM-1 and ABM-2, the absence of these motifs in MAP1B suggests a unique binding mode between MAP1B and ALG-2. Here, we identified the region of mouse MAPIB responsible for binding to ALG-2, and found point mutations that abrogated binding of MAP1B to ALG-2. Furthermore, interaction between MAP1B and ALG-2 selectively prevented ALG-2 from binding to proteins with ABM-2 such as Sec31A, suggesting competition between MAP1B and ABM-2-containing proteins for binding to ALG-2. Consistently, in MAP1B knockout cells, co-localization of ALG-2 with Sec31A was increased. Moreover, overexpression of wild-type MAP1B, but not the MAP1B mutant defective in ALG-2 binding, altered localizations of ALG-2 and Sec31A into dispersed distributions, suggesting that MAP1B regulates localizations of ALG-2 and Sec31A in the cells. Finally, we found two cancer-associated mutations of human MAP1B located near ALG-2 binding sites. The introduction of the corresponding mutations in mouse MAPIB dramatically reduced the binding ability to ALG-2. Thus, these results suggest that MAPIB plays a role in regulation of ALG-2 and Sec31A localizations, and that dysregulation of calcium-dependent binding of ALG-2 to MAP1B might influence pathological conditions such as cancers. (C) 2018 Elsevier Inc. All rights reserved.