Amin Nancy, Khan Afifa, St Johnston Daniel, Tomlinson Ian, Martin Sophie, Brenman Jay, McNeill Helen
Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto, ON, Canada M5G 1X5.
Proc Natl Acad Sci U S A. 2009 Jun 2;106(22):8941-6. doi: 10.1073/pnas.0812469106. Epub 2009 May 14.
The serine-threonine kinase LKB1 regulates cell polarity from Caenorhabditis elegans to man. Loss of lkb1 leads to a cancer predisposition, known as Peutz-Jeghers Syndrome. Biochemical analysis indicates that LKB1 can phosphorylate and activate a family of AMPK- like kinases, however, the precise contribution of these kinases to the establishment and maintenance of cell polarity is still unclear. Recent studies propose that LKB1 acts primarily through the AMP kinase to establish and/or maintain cell polarity. To determine whether this simple model of how LKB1 regulates cell polarity has relevance to complex tissues, we examined lkb1 mutants in the Drosophila eye. We show that adherens junctions expand and apical, junctional, and basolateral domains mix in lkb1 mutants. Surprisingly, we find LKB1 does not act primarily through AMPK to regulate cell polarity in the retina. Unlike lkb1 mutants, ampk retinas do not show elongated rhabdomeres or expansion of apical and junctional markers into the basolateral domain. In addition, nutrient deprivation does not reveal a more dramatic polarity phenotype in lkb1 photoreceptors. These data suggest that AMPK is not the primary target of LKB1 during eye development. Instead, we find that a number of other AMPK-like kinase, such as SIK, NUAK, Par-1, KP78a, and KP78b show phenotypes similar to weak lkb1 loss of function in the eye. These data suggest that in complex tissues, LKB1 acts on an array of targets to regulate cell polarity.
丝氨酸 - 苏氨酸激酶LKB1从秀丽隐杆线虫到人类都参与调节细胞极性。LKB1的缺失会导致一种癌症易感性疾病,即黑斑息肉综合征。生化分析表明,LKB1可以磷酸化并激活一类AMPK样激酶,然而,这些激酶对细胞极性建立和维持的确切作用仍不清楚。最近的研究表明,LKB1主要通过AMP激酶来建立和/或维持细胞极性。为了确定这个关于LKB1如何调节细胞极性的简单模型是否与复杂组织相关,我们在果蝇眼睛中检测了LKB1突变体。我们发现,在LKB1突变体中,黏着连接会扩张,顶端、连接和基底外侧结构域会混合。令人惊讶的是,我们发现LKB1在视网膜中调节细胞极性时并非主要通过AMPK起作用。与LKB1突变体不同,AMPK突变的视网膜没有显示出拉长的视杆,也没有顶端和连接标记物向基底外侧结构域的扩张。此外,营养剥夺并未在LKB1光感受器中揭示出更显著的极性表型。这些数据表明,在眼睛发育过程中,AMPK不是LKB1的主要靶点。相反,我们发现一些其他的AMPK样激酶,如SIK、NUAK、Par - 1、KP78a和KP78b,在眼睛中表现出与LKB1功能部分缺失相似的表型。这些数据表明,在复杂组织中,LKB1作用于一系列靶点来调节细胞极性。