A FRAP Assay to determine the influence of Crumbs in membrane protein dynamics

Bronze Firmino, João Pedro

11 September 2012

Apicobasal polarity is essential for epithelia formation and maintenance. Cell junctions, namely the zonula adherens in Drosophila melanogaster, are the morphological landmarks that define and distinguish the apical from the basal surface. This resulting compartmentalisation is key for the cell and consequently the epithelia. To maintain proper junctions, cells make use of several protein complexes and their interactions. Among these complexes, the Crumbs (Crb) network stands out. Mutations in Crumbs (crb11A22) lead to zonula adherens collapse, consequent loss of apical surface and disaggregation of the epithelia. However, the mechanisms behind this are not known and havenʼt been addressed using modern techniques such as live imaging. Several things came out of the dataset obtained from the FRAP experiments. Firstly, protein kinetics are better described when a double exponential fit curve is used, which raises the possibility that two cell processes might be involved in the recovery observed for the different markers. Another finding was the fact that the kinetics of some polarised protein markers is not the same in every region of the embryo. Distinct areas of the embryo with different morphogenetic activity levels show different kinetics for the same compartment marker. That was the case with SpiderGFP (whole plasma membrane marker) and SASVenus (apical plasma membrane marker) where τ2 was lower in the posterior region of the embryo which is characterised by intense cell movements resulting from convergence extension. DE-CadGFP (zonula adherens marker) and lacGFP (basolateral marker) behaved similarly in the whole embryo. This indicates that convergence extension shows different trafficking needs for the apical surface. In crb11A22, SpiderGFP kinetic spatial differences were not observed. τ2 in the anterior (low level of morphogenesis) is affected and similar to wild type τ2 levels in the posterior. This could pinpoint the fact that the epithelia disaggregation is a result of trafficking failure of apical components. Live imaging of DE-CadGFP in crb11A22 background revealed initial disaggregation in the anterior part of the embryo, which strengthens the idea that Crb is required for adherens junction stabilisation and maintenance.

Apicobasal cell polarity

FRAP

Crumbs

Drosophila melanogaster

ddc:570

rvk:WD 5100

A FRAP Assay to determine the influence of Crumbs in membrane protein dynamics

Bronze Firmino, João Pedro

07 September 2011

Apicobasal polarity is essential for epithelia formation and maintenance. Cell junctions, namely the zonula adherens in Drosophila melanogaster, are the morphological landmarks that define and distinguish the apical from the basal surface. This resulting compartmentalisation is key for the cell and consequently the epithelia. To maintain proper junctions, cells make use of several protein complexes and their interactions. Among these complexes, the Crumbs (Crb) network stands out. Mutations in Crumbs (crb11A22) lead to zonula adherens collapse, consequent loss of apical surface and disaggregation of the epithelia. However, the mechanisms behind this are not known and havenʼt been addressed using modern techniques such as live imaging. Several things came out of the dataset obtained from the FRAP experiments. Firstly, protein kinetics are better described when a double exponential fit curve is used, which raises the possibility that two cell processes might be involved in the recovery observed for the different markers. Another finding was the fact that the kinetics of some polarised protein markers is not the same in every region of the embryo. Distinct areas of the embryo with different morphogenetic activity levels show different kinetics for the same compartment marker. That was the case with SpiderGFP (whole plasma membrane marker) and SASVenus (apical plasma membrane marker) where τ2 was lower in the posterior region of the embryo which is characterised by intense cell movements resulting from convergence extension. DE-CadGFP (zonula adherens marker) and lacGFP (basolateral marker) behaved similarly in the whole embryo. This indicates that convergence extension shows different trafficking needs for the apical surface. In crb11A22, SpiderGFP kinetic spatial differences were not observed. τ2 in the anterior (low level of morphogenesis) is affected and similar to wild type τ2 levels in the posterior. This could pinpoint the fact that the epithelia disaggregation is a result of trafficking failure of apical components. Live imaging of DE-CadGFP in crb11A22 background revealed initial disaggregation in the anterior part of the embryo, which strengthens the idea that Crb is required for adherens junction stabilisation and maintenance.

info:eu-repo/classification/ddc/570

ddc:570