LTK and ALK promote neuronal polarity and cortical migration by inhibiting IGF1R activity.

The establishment of axon-dendrite polarity is fundamental for radial migration of neurons, cortical patterning, and formation of neuronal circuits. Here, we show that the receptor tyrosine kinases, Ltk and Alk, are required for proper neuronal polarization. In isolated primary mouse embryonic neurons, the loss of Ltk and/or Alk causes a multiple axon phenotype.

NUAK1 promotes organ fibrosis via YAP and TGF-β/SMAD signaling.

Fibrosis is a central pathway that drives progression of multiple chronic diseases, yet few safe and effective clinical antifibrotic therapies exist. In most fibrotic disorders, transforming growth factor-β (TGF-β)-driven scarring is an important pathologic feature and a key contributor to disease progression. Yes-associated protein (YAP) and transcriptional coactivator with PDZ-binding motif (TAZ) are two closely related transcription cofactors that are important for coordinating fibrogenesis after organ injury, but how they are activated in response to tissue injury has, so far, remained unclear.

High-content imaging and analysis to quantify the nuclear to cytoplasmic ratio of TGFβ and hippo effectors in mammalian cells.

Automated high-content immunofluorescence (IF) microscopy is used to monitor and quantify localization of the TGFβ/Smads and Taz/Yap Hippo effectors in mouse epithelial EpH4 cells transfected with Taz/Yap siRNAs. The nuclear-to-cytoplasmic protein ratios obtained by IF are converted into normalized masses by estimating the ratio of the compartment volumes. This method has the advantage that endogenous rather than tagged proteins are tracked and that knockdown of Taz/Yap can be simultaneously monitored at the single-cell level.

A feed forward loop enforces YAP/TAZ signaling during tumorigenesis.

In most solid tumors, the Hippo pathway is inactivated through poorly understood mechanisms that result in the activation of the transcriptional regulators, YAP and TAZ. Here, we identify NUAK2 as a YAP/TAZ activator that directly inhibits LATS-mediated phosphorylation of YAP/TAZ and show that NUAK2 induction by YAP/TAZ and AP-1 is required for robust YAP/TAZ signaling. Pharmacological inhibition or loss of NUAK2 reduces the growth of cultured cancer cells and mammary tumors in mice.

p21-Activated kinase (PAK) is required for Bone Morphogenetic Protein (BMP)-induced dendritogenesis in cortical neurons.

Bone Morphogenetic Proteins (BMPs) are crucial for many aspects of the development and differentiation of the nervous system and are important in controlling cytoskeletal remodeling during neuronal morphogenesis. BMPs are TGFβ superfamily members that signal through a heteromeric complex of type I and type II BMP receptors. The BMPRII receptor is particularly important in mediating remodeling of the neuronal cytoskeleton through the activation of BMPRII-bound cytoskeletal regulators, such as LIM Kinase (LIMK).