Julia Tzu scite author profile

Rac GTPases regulate the actin cytoskeleton to control changes in cell shape. To date, the analysis of Rac function during development has relied heavily on the use of dominant mutant isoforms. Here, we use loss-of-function mutations to show that the three Drosophila Rac genes, Rac1, Rac2 and Mtl, have overlapping functions in the control of epithelial morphogenesis, myoblast fusion, and axon growth and guidance. They are not required for the establishment of planar cell polarity, as had been suggested on the basis of studies using dominant mutant isoforms. The guanine nucleotide exchange factor, Trio, is essential for Rac function in axon growth and guidance, but not for epithelial morphogenesis or myoblast fusion. Different Rac activators thus act in different developmental processes. The specific cellular response to Rac activation may be determined more by the upstream activator than the specific Rac protein involved.

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Rac GTPases control axon growth, guidance and branching

Nardine

Harms

et al. 2002

Nature

312

259

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Growth, guidance and branching of axons are all essential processes for the precise wiring of the nervous system. Rho family GTPases transduce extracellular signals to regulate the actin cytoskeleton. In particular, Rac has been implicated in axon growth and guidance. Here we analyse the loss-of-function phenotypes of three Rac GTPases in Drosophila mushroom body neurons. We show that progressive loss of combined Rac1, Rac2 and Mtl activity leads first to defects in axon branching, then guidance, and finally growth. Expression of a Rac1 effector domain mutant that does not bind Pak rescues growth, partially rescues guidance, but does not rescue branching defects of Rac mutant neurons. Mosaic analysis reveals both cell autonomous and non-autonomous functions for Rac GTPases, the latter manifesting itself as a strong community effect in axon guidance and branching. These results demonstrate the central role of Rac GTPases in multiple aspects of axon development in vivo, and suggest that axon growth, guidance and branching could be controlled by differential activation of Rac signalling pathways.

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Bridging structure with function: Structural, regulatory, and developmental role of laminins

Tzu

Marinkovich

2008

The International Journal of Biochemistry & Cell Biology

215

165

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The basement membrane is a highly intricate and organized portion of the extracellular matrix that interfaces with a variety of cell types including epithelial, endothelial, muscle, nerve, and fat cells. The laminin family of glycoproteins is a major constituent of the basement membrane. The 16 known laminin isoforms are formed from combinations of alpha, beta, and gamma chains, with each chain containing specific domains capable of interacting with cellular receptors such as integrins and other extracellular ligands. In addition to its role in the assembly and architectural integrity of the basement membrane, laminins interact with cells to influence proliferation, differentiation, adhesion, and migration, processes activated in normal and pathologic states. In vitro these functions are regulated by the post-translational modifications of the individual laminin chains. In vivo laminin knockout mouse studies have been particularly instructive in defining the function of specific laminins in mammalian development and have also highlighted its role as a key component of the basement membrane. In this review, we will define how laminin structure complements function and explore its role in both normal and pathologic processes.

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Laminin-10 is crucial for hair morphogenesis

et al. 2003

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The role of the extracellular matrix in cutaneous morphogenesis is poorly understood. Here, we describe the essential role of laminin‐10 (α5β1γ1) in hair follicle development. Laminin‐10 was present in the basement membrane of elongating hair germs, when other laminins were downregulated, suggesting a role for laminin‐10 in hair development. Treatment of human scalp xenografts with antibodies to laminin‐10, or its receptor β1 integrin, produced alopecia. E16.5 Lama5 −/− mouse skin, lacking laminin‐10, contained fewer hair germs compared with controls, and after transplantation, Lama5 −/− skin showed a failure of hair germ elongation followed by complete hair follicle regression. Lama5 −/− skin showed defective basement membrane assembly, without measurable increases in anoikis. Instead, Lama5 −/− skin showed decreased expression of early hair markers including sonic hedgehog and Gli1, implicating laminin‐10 in developmental signaling. Intriguingly, treatment of Lama5 −/− skin with purified laminin‐10 corrected basement membrane defects and restored hair follicle development. We conclude that laminin‐10 is required for hair follicle development and report the first use of exogenous protein to correct a cutaneous developmental defect.

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Lichenoid paraneoplastic pemphigus in the absence of detectable antibodies

Cummins

Mimouni

Tzu³

et al. 2007

Journal of the American Academy of Dermatology

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Julia Tzu

Rac function and regulation during Drosophila development

Rac GTPases control axon growth, guidance and branching

Bridging structure with function: Structural, regulatory, and developmental role of laminins

Laminin-10 is crucial for hair morphogenesis

Lichenoid paraneoplastic pemphigus in the absence of detectable antibodies

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