Abbruzzese G et al. (2016), ADAM13 cleavage of cadherin-11 promotes CNC mig...

XB-ART-51014

Dev Biol 2016 Jul 15;4152:383-390. doi: 10.1016/j.ydbio.2015.07.018.

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ADAM13 cleavage of cadherin-11 promotes CNC migration independently of the homophilic binding site.

Abbruzzese G , Becker SF , Kashef J .

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The cranial neural crest (CNC) is a highly motile population of cells that is responsible for forming the face and jaw in all vertebrates and perturbing their migration can lead to craniofacial birth defects. Cell motility requires a dynamic modification of cell-cell and cell-matrix adhesion. In the CNC, cleavage of the cell adhesion molecule cadherin-11 by ADAM13 is essential for cell migration. This cleavage generates a shed extracellular fragment of cadherin-11 (EC1-3) that possesses pro-migratory activity via an unknown mechanism. Cadherin-11 plays an important role in modulating contact inhibition of locomotion (CIL) in the CNC to regulate directional cell migration. Here, we show that while the integral cadherin-11 requires the homophilic binding site to promote CNC migration in vivo, the EC1-3 fragment does not. In addition, we show that increased ADAM13 activity or expression of the EC1-3 fragment increases CNC invasiveness in vitro and blocks the repulsive CIL response in colliding cells. This activity requires the presence of an intact homophilic binding site on the EC1-3 suggesting that the cleavage fragment may function as a competitive inhibitor of cadherin-11 adhesion in CIL but not to promote cell migration in vivo.

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Species referenced: Xenopus laevis
Genes referenced: adam13 cdh11 egf
GO keywords: cell adhesion
???displayArticle.morpholinos??? adam13 MO3 cdh11 MO1 cdh11 MO2

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	Fig. 1. Cleavage of cadherin-11 is essential for CNC migration in vivo. (A) Western blot from showing cleavage of C11 by ADAM13 but not by the inactive ADAM13-E/A containing a mutation in the active site. Glycoproteins were purified from transfected Cos-7 cells with ConA-agarose beads and detected using the antibody to the cadherin-11 cytoplasmic domain 1B4. Cleavage is observed by the presence of a shorter membrane-bound C11 fragment at 65 kDa (arrowhead). This cleavage fragment is absent when C11-egf is co-transfected with ADAM13. ADAM13 was detected using the antibody to the ADAM13 cytoplasmic domain 6615 F. The 120 kDa Pro-form and the 100 kDa mature form are shown. Bâ€“D) Targeted injection assays testing non-cleavable C11-egf in CNC migration in vivo. Histograms represent the percentage of embryos with no CNC migration, normalized to injection of RFP alone, for the overexpression of C11 or C11-egf with A13 or A13-egf (B) or the replacement of endogenous C11 with wildtype or non-cleavable C11-egf (C). Representative images of embryos in (C) are shown in (D) with arrowheads pointing to RFP-labeled cells that successfully migrated into the branchial and hyoid arches. n=number of embryos scored from three or more independent experiments. Error bars represent standard deviation to the mean. Studentâ€™s t-test was performed to determine statistical significance. p<0.05, **p<0.005. Scale bar, 500 Âµm.
	Fig. 2. Increase of ADAM13 expression leads to higher CNC invasiveness in vitro. Confrontation assay. Left column: Confronted explants at time point t=0. Right column: Confronted CNC explants at time point of highest invasion Î”t. Confrontations of wildtype explants with (A) wildtype CNC explants, (B) explants of ADAM13-depleted CNC (MO13) or (C) CNC explants overexpressing C11 show only small overlapping explant borders with low invasiveness. In contrast, yellow overlapping area increases significantly in confrontations with CNC cells overexpressing (D) ADAM13 or (E) cleavage product EC1-3. (F) Overexpression of the non-adhesive extracellular fragment na-EC1-3 in CNC explants leads to small overlap when confronted with wild-type explants. Average Overlapping Index (OI) is given in (G) with n=number of confrontations. wt: wildtype. Error bar shows standard error. (***) Significance to wildtype vs. wildtype with p<0.005 after Studentâ€™s t-test. Scale bar, 50 Âµm.
	Fig. 3. Increase of ADAM13 expression blocks the repulsive response in colliding single CNC cells in vitro. Collision assay. First three columns: Single CNC cells before (t-Î”t), during (t) and after (t+Î”t) mutual contact. Yellow and white vectors give change of cell location. Fourth column: Relative velocity vectors with initial velocity vector (red, n=10 collisions). Mutual collisions of (A) wildtype CNC cells, (B) ADAM13-depleted CNC cells (MO13) and (C) CNC cells overexpressing C11 lead to repulsive response of the cells and CIL. In contrast, CNC cells overexpressing (D) ADAM13 or (E) the cleavage product EC1-3 show no change of direction. (F) Repulsive response and CIL are observed in collisions in single CNC cells overexpressing the non-adhesive fragment na-EC1-3. Scale bar, 50 Âµm. (G) Average velocity of single cells in the various conditions. Overexpression of cadherin-11 and expression of EC1-3 or na-EC1-3 significantly reduce the cell velocity.
	Fig. 4. Cadherin-11 extracellular repeats 1 and 2 are sufficient to stimulate CNC migration in vivo. (A) Histogram representing the percentage of embryos with no migration due to the overexpression of C11, normalized to RFP. Rescue of migration requires co-expression of the artificial C11 cleavage fragment containing at least extracellular repeats 1 and 2 (EC1-2), while EC1 alone is not sufficient. (B) Representative images of embryos in (A) are shown with arrowheads pointing to RFP-labeled cells that successfully migrated into the branchial and hyoid arches. n=number of embryos scored from three independent experiments. Error bars are standard deviation to the mean. A Student's t-test was performed for significance to C11 overexpression. <0.05, **<0.005. Scale bar, 500 Âµm.
	Fig. 5. EC1-3 does not promote migration in vivo through the homophilic site. (Aâ€“D) Targeted injection assays to measure CNC migration with histograms showing the percentage of embryos with inhibited migration normalized to RFP (A, C) and representative images of each condition with arrowheads pointing to RFP-positive cells within the branchial and hyoid arches (B, D). na-EC1-3 rescues the overexpression of C11 or C11-egf as well as EC1-3 (A, B), and also rescues migration when expressed along with MO11 and C11-egf (C, D). Full-length na-C11 cannot rescue migration when expressed with MO11, and cannot be rescued by wildtype EC1-3 in the MO11 background (C, D). n=number of embryos scored from at least three independent experiments. Error bars are standard deviation to the mean and a Studentâ€™s t-test was performed to determine statistical significance. <0.01, *<0.005. Scale bar, 500 Âµm.

References [+] :

Abbruzzese, The Wnt receptor Frizzled-4 modulates ADAM13 metalloprotease activity. 2015, Pubmed, Xenbase

	Fig. 1. Cleavage of cadherin-11 is essential for CNC migration in vivo. (A) Western blot from showing cleavage of C11 by ADAM13 but not by the inactive ADAM13-E/A containing a mutation in the active site. Glycoproteins were purified from transfected Cos-7 cells with ConA-agarose beads and detected using the antibody to the cadherin-11 cytoplasmic domain 1B4. Cleavage is observed by the presence of a shorter membrane-bound C11 fragment at 65 kDa (arrowhead). This cleavage fragment is absent when C11-egf is co-transfected with ADAM13. ADAM13 was detected using the antibody to the ADAM13 cytoplasmic domain 6615 F. The 120 kDa Pro-form and the 100 kDa mature form are shown. Bâ€“D) Targeted injection assays testing non-cleavable C11-egf in CNC migration in vivo. Histograms represent the percentage of embryos with no CNC migration, normalized to injection of RFP alone, for the overexpression of C11 or C11-egf with A13 or A13-egf (B) or the replacement of endogenous C11 with wildtype or non-cleavable C11-egf (C). Representative images of embryos in (C) are shown in (D) with arrowheads pointing to RFP-labeled cells that successfully migrated into the branchial and hyoid arches. n=number of embryos scored from three or more independent experiments. Error bars represent standard deviation to the mean. Studentâ€™s t-test was performed to determine statistical significance. p<0.05, **p<0.005. Scale bar, 500 Âµm.
	Fig. 2. Increase of ADAM13 expression leads to higher CNC invasiveness in vitro. Confrontation assay. Left column: Confronted explants at time point t=0. Right column: Confronted CNC explants at time point of highest invasion Î”t. Confrontations of wildtype explants with (A) wildtype CNC explants, (B) explants of ADAM13-depleted CNC (MO13) or (C) CNC explants overexpressing C11 show only small overlapping explant borders with low invasiveness. In contrast, yellow overlapping area increases significantly in confrontations with CNC cells overexpressing (D) ADAM13 or (E) cleavage product EC1-3. (F) Overexpression of the non-adhesive extracellular fragment na-EC1-3 in CNC explants leads to small overlap when confronted with wild-type explants. Average Overlapping Index (OI) is given in (G) with n=number of confrontations. wt: wildtype. Error bar shows standard error. (***) Significance to wildtype vs. wildtype with p<0.005 after Studentâ€™s t-test. Scale bar, 50 Âµm.
	Fig. 3. Increase of ADAM13 expression blocks the repulsive response in colliding single CNC cells in vitro. Collision assay. First three columns: Single CNC cells before (t-Î”t), during (t) and after (t+Î”t) mutual contact. Yellow and white vectors give change of cell location. Fourth column: Relative velocity vectors with initial velocity vector (red, n=10 collisions). Mutual collisions of (A) wildtype CNC cells, (B) ADAM13-depleted CNC cells (MO13) and (C) CNC cells overexpressing C11 lead to repulsive response of the cells and CIL. In contrast, CNC cells overexpressing (D) ADAM13 or (E) the cleavage product EC1-3 show no change of direction. (F) Repulsive response and CIL are observed in collisions in single CNC cells overexpressing the non-adhesive fragment na-EC1-3. Scale bar, 50 Âµm. (G) Average velocity of single cells in the various conditions. Overexpression of cadherin-11 and expression of EC1-3 or na-EC1-3 significantly reduce the cell velocity.
	Fig. 4. Cadherin-11 extracellular repeats 1 and 2 are sufficient to stimulate CNC migration in vivo. (A) Histogram representing the percentage of embryos with no migration due to the overexpression of C11, normalized to RFP. Rescue of migration requires co-expression of the artificial C11 cleavage fragment containing at least extracellular repeats 1 and 2 (EC1-2), while EC1 alone is not sufficient. (B) Representative images of embryos in (A) are shown with arrowheads pointing to RFP-labeled cells that successfully migrated into the branchial and hyoid arches. n=number of embryos scored from three independent experiments. Error bars are standard deviation to the mean. A Student's t-test was performed for significance to C11 overexpression. <0.05, **<0.005. Scale bar, 500 Âµm.
	Fig. 5. EC1-3 does not promote migration in vivo through the homophilic site. (Aâ€“D) Targeted injection assays to measure CNC migration with histograms showing the percentage of embryos with inhibited migration normalized to RFP (A, C) and representative images of each condition with arrowheads pointing to RFP-positive cells within the branchial and hyoid arches (B, D). na-EC1-3 rescues the overexpression of C11 or C11-egf as well as EC1-3 (A, B), and also rescues migration when expressed along with MO11 and C11-egf (C, D). Full-length na-C11 cannot rescue migration when expressed with MO11, and cannot be rescued by wildtype EC1-3 in the MO11 background (C, D). n=number of embryos scored from at least three independent experiments. Error bars are standard deviation to the mean and a Studentâ€™s t-test was performed to determine statistical significance. <0.01, *<0.005. Scale bar, 500 Âµm.