General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
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Gene ID | 55233 |
Name | MOB1A |
Synonymous | C2orf6|MATS1|MOB1|MOBK1B|MOBKL1B|Mob4B;MOB kinase activator 1A;MOB1A;MOB kinase activator 1A |
Definition | MOB1 Mps One Binder homolog A|MOB1, Mps One Binder kinase activator-like 1B|mob1 alpha|mob1 homolog 1B|mps one binder kinase activator-like 1B |
Position | 2p13.1 |
Gene type | protein-coding |
Title |
Abstract |
Control of cell proliferation and apoptosis by mob as tumor suppressor, mats. | Appropriate cell number and organ size in a multicellular organism are determined by coordinated cell growth, proliferation, and apoptosis. Disruption of these processes can cause cancer. Recent studies have identified the Large tumor suppressor (Lats)/Warts (Wts) protein kinase as a key component of a pathway that controls the coordination between cell proliferation and apoptosis. Here we describe growth inhibitory functions for a Mob superfamily protein, termed Mats (Mob as tumor suppressor), in Drosophila. Loss of Mats function results in increased cell proliferation, defective apoptosis, and induction of tissue overgrowth. We show that mats and wts function in a common pathway. Mats physically associates with Wts to stimulate the catalytic activity of the Wts kinase. A human Mats ortholog (Mats1) can rescue the lethality associated with loss of Mats function in Drosophila. As Mats1 is mutated in human tumors, Mats-mediated growth inhibition and tumor suppression is likely conserved in humans. |
Molecular characterization of human homologs of yeast MOB1. | MOB (Mps one binder) was originally identified in yeast as a regulator of mitotic exit and cytokinesis, and was later identified as a tumor suppressor and a component of an emerging Hippo-LATS tumor suppressor pathway in Drosophila (D). So far, 7 human homologs of yeast MOB (hMOB1A, 1B, 2A, 2B, 2C, 3, 4) have been identified. Although hMOB1A/B has been extensively studied, the biological features of other hMOBs are largely unknown. In addition, while hMOB1 has been reported to interact with and activate LATS (Large tumor suppressor)/Warts tumor suppressor, the functional significance of this is unknown. In this study, we have characterized, for the first time, the cellular and biochemical function of all human MOBs. By examining hMOB mRNAs expression in various human tissues, we found that hMOBs demonstrated different expression patterns. Further biochemical characterization of hMOBs showed that only hMOB1A and hMOB1B interact with both LATS1 and LATS2 in vitro and in vivo. Significantly, we have discovered that overexpression of hMOB1 in human cancer cells activated LATS activity and inhibited cell proliferation or caused apoptosis while hMOB1, targeting the plasma membrane, led to a more significant phenotype. Reciprocally, short-hairpin (sh) RNA-mediated suppression of hMOB1 causes increased cell proliferation. Our findings provided evidence that hMOB1A and hMOB1B are 2 LATS-binding proteins that may function as tumor suppressors in human cancer cells. |
Cancer susceptibility and embryonic lethality in Mob1a/1b double-mutant mice. | Mps one binder 1a (MOB1A) and MOB1B are key components of the Hippo signaling pathway and are mutated or inactivated in many human cancers. Here we show that intact Mob1a or Mob1b is essential for murine embryogenesis and that loss of the remaining WT Mob1 allele in Mob1a(Delta/Delta)1b(tr/+) or Mob1a(Delta/+)1b(tr/tr) mice results in tumor development. Because most of these cancers resembled trichilemmal carcinomas, we generated double-mutant mice bearing tamoxifen-inducible, keratinocyte-specific homozygous-null mutations of Mob1a and Mob1b (kDKO mice). kDKO mice showed hyperplastic keratinocyte progenitors and defective keratinocyte terminal differentiation and soon died of malnutrition. kDKO keratinocytes exhibited hyperproliferation, apoptotic resistance, impaired contact inhibition, enhanced progenitor self renewal, and increased centrosomes. Examination of Hippo pathway signaling in kDKO keratinocytes revealed that loss of Mob1a/b altered the activities of the downstream Hippo mediators LATS and YAP1. Similarly, YAP1 was activated in some human trichilemmal carcinomas, and some of these also exhibited MOB1A/1B inactivation. Our results clearly demonstrate that MOB1A and MOB1B have overlapping functions in skin homeostasis, and exert their roles as tumor suppressors by regulating downstream elements of the Hippo pathway. |