The Role of vang-1/Van Gogh in Neuronal Polarity in Caenorhabditis elegans

Visanuvimol, Jiravat

24 April 2012

During neuronal development, the axonal and dendritic projections are polarized and oriented along specific body axis. To further explore the molecular basis of neuritogenesis in vivo, we used the nematode Caenorhabditis elegans as a developmental model and performed a forward genetic screen to identify genes that specify the polarity of neurite outgrowth. We examined the VC4 and VC5 neurons, members of the six VC motor neurons using the Pcat-1::gfp transgene cyIs4. The VC motor neurons are ventrally located neurons that extend two processes. VC1, VC2, VC3, and VC6 extend axons along the anterior-posterior (A/P) axis; VC4 and VC5 extend axons around the vulva along a mediolateral left-right (L/R) axis perpendicular to the A/P axis. We identified and showed that vang-1/Van Gogh, a core component of planar cell polarity (PCP) signalling pathway, acts cell-autonomously in VC4 and VC5 neurons and non-autonomously from the epithelial cells to restrict neurite formation along the A/P axis. vang-1 mutant animals display ectopic neurites along the A/P axis. Using a candidate gene approach, we further identified and revealed two additional core members of PCP signalling, Prickle (PRKL-1) and Dishevelled (DSH-1), to play a role in A/P-directed neurite suppression. We also showed prkl-1 and dsh-1 genetically interact with vang-1 and VANG-1 is required to suppress A/P-directed neurite outgrowth from larval stage 4 to adulthood. Overexpression of VANG-1 results in a loss-of-function (lof) phenotype, suggesting that an appropriate level of VANG-1 activity is important. Additionally, vang-1/prkl-1, and dsh-1 may interact in parallel pathways. Our findings implicate PCP genes to play a previously unidentified role in maintaining polarized neuronal morphology by inhibiting neuronal outgrowth responses to environmental cues.

Caenorhabditis elegans

Planar Cell Polarity

Neurobiology

Neurite polarity

The Role of vang-1/Van Gogh in Neuronal Polarity in Caenorhabditis elegans

Visanuvimol, Jiravat

24 April 2012

During neuronal development, the axonal and dendritic projections are polarized and oriented along specific body axis. To further explore the molecular basis of neuritogenesis in vivo, we used the nematode Caenorhabditis elegans as a developmental model and performed a forward genetic screen to identify genes that specify the polarity of neurite outgrowth. We examined the VC4 and VC5 neurons, members of the six VC motor neurons using the Pcat-1::gfp transgene cyIs4. The VC motor neurons are ventrally located neurons that extend two processes. VC1, VC2, VC3, and VC6 extend axons along the anterior-posterior (A/P) axis; VC4 and VC5 extend axons around the vulva along a mediolateral left-right (L/R) axis perpendicular to the A/P axis. We identified and showed that vang-1/Van Gogh, a core component of planar cell polarity (PCP) signalling pathway, acts cell-autonomously in VC4 and VC5 neurons and non-autonomously from the epithelial cells to restrict neurite formation along the A/P axis. vang-1 mutant animals display ectopic neurites along the A/P axis. Using a candidate gene approach, we further identified and revealed two additional core members of PCP signalling, Prickle (PRKL-1) and Dishevelled (DSH-1), to play a role in A/P-directed neurite suppression. We also showed prkl-1 and dsh-1 genetically interact with vang-1 and VANG-1 is required to suppress A/P-directed neurite outgrowth from larval stage 4 to adulthood. Overexpression of VANG-1 results in a loss-of-function (lof) phenotype, suggesting that an appropriate level of VANG-1 activity is important. Additionally, vang-1/prkl-1, and dsh-1 may interact in parallel pathways. Our findings implicate PCP genes to play a previously unidentified role in maintaining polarized neuronal morphology by inhibiting neuronal outgrowth responses to environmental cues.

Caenorhabditis elegans

Planar Cell Polarity

Neurobiology

Neurite polarity

The Role of vang-1/Van Gogh in Neuronal Polarity in Caenorhabditis elegans

Visanuvimol, Jiravat

January 2012

During neuronal development, the axonal and dendritic projections are polarized and oriented along specific body axis. To further explore the molecular basis of neuritogenesis in vivo, we used the nematode Caenorhabditis elegans as a developmental model and performed a forward genetic screen to identify genes that specify the polarity of neurite outgrowth. We examined the VC4 and VC5 neurons, members of the six VC motor neurons using the Pcat-1

Caenorhabditis elegans

Planar Cell Polarity

Neurobiology

Neurite polarity