Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression

G. Franciosa; G. Diluvio; F. Del Gaudio; M. V. Giuli; R. Palermo; P. Grazioli; A. F. Campese; C. Talora; D. Bellavia; G. D'Amati; Z. M. Besharat; C. Nicoletti; C. W. Siebel; L. Choy; A. Rustighi; G. Del Sal; I. Screpanti; S. Checquolo

doi:10.1038/onc.2016.5

Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression

G. Franciosa, G. Diluvio, F. Del Gaudio, M. V. Giuli, R. Palermo, P. Grazioli, A. F. Campese, C. Talora, D. Bellavia, G. D'Amati, Z. M. Besharat, C. Nicoletti, C. W. Siebel, L. Choy, A. Rustighi, G. Del Sal, I. Screpanti^*, S. Checquolo

^*Corresponding author for this work

37 Citations (Scopus)

Abstract

Deregulated Notch signaling is associated with T-cell Acute Lymphoblastic Leukemia (T-ALL) development and progression. Increasing evidence reveals that Notch pathway has an important role in the invasion ability of tumor cells, including leukemia, although the underlying molecular mechanisms remain mostly unclear. Here, we show that Notch3 is a novel target protein of the prolyl-isomerase Pin1, which is able to regulate Notch3 protein processing and to stabilize the cleaved product, leading to the increased expression of the intracellular domain (N3_IC), finally enhancing Notch3-dependent invasiveness properties. We demonstrate that the combined inhibition of Notch3 and Pin1 in the Notch3-overexpressing human leukemic TALL-1 cells reduces their high invasive potential, by decreasing the expression of the matrix metalloprotease MMP9. Consistently, Pin1 depletion in a mouse model of Notch3-induced T-ALL, by reducing N3_IC expression and signaling, impairs the expansion/invasiveness of CD4⁺ CD8⁺ DP cells in peripheral lymphoid and non-lymphoid organs. Notably, in in silico gene expression analysis of human T-ALL samples we observed a significant correlation between Pin1 and Notch3 expression levels, which may further suggest a key role of the newly identified Notch3-Pin1 axis in T-ALL aggressiveness and progression. Thus, combined suppression of Pin1 and Notch3 proteins may be exploited as an additional target therapy for T-ALL.

Original language	English
Journal	Oncogene
Volume	35
Issue number	36
Pages (from-to)	4741-4751
Number of pages	11
ISSN	0950-9232
DOIs	https://doi.org/10.1038/onc.2016.5
Publication status	Published - 8 Sept 2016

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Franciosa, G., Diluvio, G., Del Gaudio, F., Giuli, M. V., Palermo, R., Grazioli, P., Campese, A. F., Talora, C., Bellavia, D., D'Amati, G., Besharat, Z. M., Nicoletti, C., Siebel, C. W., Choy, L., Rustighi, A., Sal, G. D., Screpanti, I., & Checquolo, S. (2016). Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression. Oncogene, 35(36), 4741-4751. https://doi.org/10.1038/onc.2016.5

Franciosa, G, Diluvio, G, Del Gaudio, F, Giuli, MV, Palermo, R, Grazioli, P, Campese, AF, Talora, C, Bellavia, D, D'Amati, G, Besharat, ZM, Nicoletti, C, Siebel, CW, Choy, L, Rustighi, A, Sal, GD, Screpanti, I & Checquolo, S 2016, 'Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression', Oncogene, vol. 35, no. 36, pp. 4741-4751. https://doi.org/10.1038/onc.2016.5

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title = "Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression",

abstract = "Deregulated Notch signaling is associated with T-cell Acute Lymphoblastic Leukemia (T-ALL) development and progression. Increasing evidence reveals that Notch pathway has an important role in the invasion ability of tumor cells, including leukemia, although the underlying molecular mechanisms remain mostly unclear. Here, we show that Notch3 is a novel target protein of the prolyl-isomerase Pin1, which is able to regulate Notch3 protein processing and to stabilize the cleaved product, leading to the increased expression of the intracellular domain (N3IC), finally enhancing Notch3-dependent invasiveness properties. We demonstrate that the combined inhibition of Notch3 and Pin1 in the Notch3-overexpressing human leukemic TALL-1 cells reduces their high invasive potential, by decreasing the expression of the matrix metalloprotease MMP9. Consistently, Pin1 depletion in a mouse model of Notch3-induced T-ALL, by reducing N3IC expression and signaling, impairs the expansion/invasiveness of CD4+ CD8+ DP cells in peripheral lymphoid and non-lymphoid organs. Notably, in in silico gene expression analysis of human T-ALL samples we observed a significant correlation between Pin1 and Notch3 expression levels, which may further suggest a key role of the newly identified Notch3-Pin1 axis in T-ALL aggressiveness and progression. Thus, combined suppression of Pin1 and Notch3 proteins may be exploited as an additional target therapy for T-ALL.",

author = "G. Franciosa and G. Diluvio and {Del Gaudio}, F. and Giuli, {M. V.} and R. Palermo and P. Grazioli and Campese, {A. F.} and C. Talora and D. Bellavia and G. D'Amati and Besharat, {Z. M.} and C. Nicoletti and Siebel, {C. W.} and L. Choy and A. Rustighi and Sal, {G. Del} and I. Screpanti and S. Checquolo",

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AU - Franciosa, G.

AU - Diluvio, G.

AU - Del Gaudio, F.

AU - Giuli, M. V.

AU - Palermo, R.

AU - Grazioli, P.

AU - Campese, A. F.

AU - Talora, C.

AU - Bellavia, D.

AU - D'Amati, G.

AU - Besharat, Z. M.

AU - Nicoletti, C.

AU - Siebel, C. W.

AU - Choy, L.

AU - Rustighi, A.

AU - Sal, G. Del

AU - Screpanti, I.

AU - Checquolo, S.

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N2 - Deregulated Notch signaling is associated with T-cell Acute Lymphoblastic Leukemia (T-ALL) development and progression. Increasing evidence reveals that Notch pathway has an important role in the invasion ability of tumor cells, including leukemia, although the underlying molecular mechanisms remain mostly unclear. Here, we show that Notch3 is a novel target protein of the prolyl-isomerase Pin1, which is able to regulate Notch3 protein processing and to stabilize the cleaved product, leading to the increased expression of the intracellular domain (N3IC), finally enhancing Notch3-dependent invasiveness properties. We demonstrate that the combined inhibition of Notch3 and Pin1 in the Notch3-overexpressing human leukemic TALL-1 cells reduces their high invasive potential, by decreasing the expression of the matrix metalloprotease MMP9. Consistently, Pin1 depletion in a mouse model of Notch3-induced T-ALL, by reducing N3IC expression and signaling, impairs the expansion/invasiveness of CD4+ CD8+ DP cells in peripheral lymphoid and non-lymphoid organs. Notably, in in silico gene expression analysis of human T-ALL samples we observed a significant correlation between Pin1 and Notch3 expression levels, which may further suggest a key role of the newly identified Notch3-Pin1 axis in T-ALL aggressiveness and progression. Thus, combined suppression of Pin1 and Notch3 proteins may be exploited as an additional target therapy for T-ALL.

AB - Deregulated Notch signaling is associated with T-cell Acute Lymphoblastic Leukemia (T-ALL) development and progression. Increasing evidence reveals that Notch pathway has an important role in the invasion ability of tumor cells, including leukemia, although the underlying molecular mechanisms remain mostly unclear. Here, we show that Notch3 is a novel target protein of the prolyl-isomerase Pin1, which is able to regulate Notch3 protein processing and to stabilize the cleaved product, leading to the increased expression of the intracellular domain (N3IC), finally enhancing Notch3-dependent invasiveness properties. We demonstrate that the combined inhibition of Notch3 and Pin1 in the Notch3-overexpressing human leukemic TALL-1 cells reduces their high invasive potential, by decreasing the expression of the matrix metalloprotease MMP9. Consistently, Pin1 depletion in a mouse model of Notch3-induced T-ALL, by reducing N3IC expression and signaling, impairs the expansion/invasiveness of CD4+ CD8+ DP cells in peripheral lymphoid and non-lymphoid organs. Notably, in in silico gene expression analysis of human T-ALL samples we observed a significant correlation between Pin1 and Notch3 expression levels, which may further suggest a key role of the newly identified Notch3-Pin1 axis in T-ALL aggressiveness and progression. Thus, combined suppression of Pin1 and Notch3 proteins may be exploited as an additional target therapy for T-ALL.

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Prolyl-isomerase Pin1 controls Notch3 protein expression and regulates T-ALL progression

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