Crosstalk between Insulin and Wnt Signaling Pathways

Sun, Jane

03 March 2010

Type II diabetes and hyperinsulinemia are associated with increased risks of developing colorectal cancer (CRC). Detailed mechanisms underlying this correlation, however, are yet to be explored. The present study demonstrates that insulin increases the expression of proto-oncogenes c-Myc and cyclin D1 via both translational and transcriptional mechanisms. We show here that insulin stimulates c-Myc gene translation via an Akt/PKB-dependent mechanism involving the mTOR signaling pathway. More importantly, we show for the first time that transcriptional stimulation of c-Myc and cyclin D1 expression by insulin involves a novel Akt/PKB-independent signal crosstalk between insulin and canonical Wnt signaling pathways. We then identified p21-activated protein kianse 1 (PAK-1) as a novel mediator for insulin and Wnt/beta-catenin (b-cat) molecular crosstalk, involving MEK/ERK signaling. Furthermore, we found that insulin treatment leads to increased b-cat phosphorylation at Ser675, and this is associated with increased b-cat nuclear content and increased b-cat interaction with Tcf/Lef-binding elements (TBEs) of the human c-Myc gene promoter. Lastly, we demonstrated that insulin signaling directly alters the expression levels of components of the Wnt signaling pathway, including fizzled homology 4 (Fdz-4) and TCF7L2 (=TCF-4). This study not only demonstrated the existence of signaling crosstalk between insulin and canonical Wnt signaling pathways at multiple levels, it reveals molecular mechanisms for observed correlation between CRC and hyperinsulinemia. The growing evidence implicating PAK-1 in various human tumorigenesis has emerged PAK-1 as a potential therapeutic target. Our discovery of PAK-1 functioning as a novel central mediator for insulin and Wnt signaling crosstalk in intestinal cells suggests that PAK-1 may potentially be a good target candidate for treating patients with CRC, especially those who have Type II diabetes or experience hyperinsulinemia.

colorectal cancer

Type 2 Diabetes

beta-catenin

insulin

0307

Functional Characterization of the Membrane Glycoprotein CD133

Mak, Anthony

17 December 2012

The AC133 epitope of the pentaspan transmembrane glycoprotein CD133 has been used as a cell-surface marker for normal and cancer stem cells from a broad range of tissue types. Despite the utility of CD133 as a marker, little is known regarding its regulation and biological function. To study these poorly understood aspects of CD133, I took two main experimental approaches: RNA interference (RNAi) screening and affinity purification coupled with mass spectrometry (AP-MS) to identify CD133 regulatory genes and CD133 protein-protein interactions (PPIs), respectively. Both of these experimental approaches relied on a human embryonic kidney (HEK) 293 cell line that exogenously expresses affinity tagged CD133 (HEK293/AC133). This cell line allowed me to perform a large-scale RNAi screen to interrogate 11,248 genes for their involvement in cell-surface AC133 recognition. This resulted in the identification of the N-glycosylation pathway as a direct contributor to CD133 plasma membrane localization and cell-surface AC133 detection. I used the same RNAi screening approach on the colon adenocarcinoma cell line Caco-2, which express CD133 from its native promoter, to identify factors that regulate endogenous CD133 transcription. I was able to demonstrate that AF4 promotes CD133 transcription in a number of cancer cell lines. Furthermore, I showed that CD133 expression in an acute lymphoblastic leukemia (ALL) cell line SEM, which is dependent on the mixed-lineage leukemia (MLL)-AF4 gene fusion, is critical for the viability of these cells. To gain further insight into the function of CD133, I performed AP-MS using HEK293/AC133 cells to identify CD133 PPIs. I identified histone deacetylase 6 (HDAC6) as a CD133 protein interaction partner. I found that HDAC6 negatively regulates CD133 trafficking into the endosomal-lysosomal degradation pathway. CD133 binds HDAC6 to prevent inhibition of HDAC6 deacetylase activity by phosphorylation. Protection of HDAC6 from phosphorylation promotes HDAC6 deacetylation of β-catenin, which results in β-catenin dependent signalling and the suppression of cancer cell differentiation. My thesis provide functional roles for CD133 as a pro-proliferative protein and as a key signalling protein in certain cancer cell lines.

CD133

N-glycosylation

AF4

HDAC6

β-catenin

0307

0369

0379

Identifying Pharmacological Therapeutics for Aggressive Fibromatosis

Hong, Helen

30 May 2011

Aggressive fibromatosis is a fibroproliferative tumour that can occur as a sporadic lesion or a manifestation in FAP patients. Tumours are characterized by the stabilization of beta-catenin. Current therapies have yet to offer complete success for primary and recurrent tumours, and there remains a need for more effective therapeutic strategies. In this work, we demonstrate the anti-neoplastic and beta-catenin modulating capacities of Nefopam, a currently approved analgesic agent. We found that Nefopam was able to decrease cell viability and proliferation as well as total beta-catenin levels in human aggressive fibromatosis tumour cells in vitro. Furthermore, Nefopam reduced the number of tumours formed in the Apc+/Apc1638N aggressive fibromatosis mouse model. We also demonstrated that androgens contribute to the development of tumours and could also modulate beta-catenin levels as indicated in Testosterone-treated orchidectomized Apc+/Apc1638N mice. Together, this work suggests that Nefopam and androgen signaling-blocking agents are potential candidates to effectively manage aggressive fibromatosis.

aggressive fibromatosis

beta-catenin

wnt signaling

mouse model

0307

0992

Valve Interstitial Cell Activation and Proliferation are Associated with Changes in Beta-catenin

Xu, Songyi

26 March 2012

Heart valve interstitial cells (VICs) undergo activation and proliferation in repair and disease, but the mechanisms are not fully understood. We hypothesize that the establishment of N-cadherin/β-catenin cell-cell contacts may decrease VIC activation, and that Wnt3a/β-catenin signaling may increase VIC proliferation. VIC cultures of different densities are stained for α-SMA, cofilin, TGF-β, pSmad2/3, N-cadherin and β-catenin, and probed for phospho-β-catenin by Western blot. Low density VIC cultures are treated with exogenous Wnt3a and measured for cell number, proliferation, apoptosis, α-SMA, β-catenin, and β-catenin-mediated transcription. β-Catenin siRNA knockdown is used to assess β-catenin specificity. Increased staining of α-SMA, cofilin, TGF-β, pSmad2/3, nuclear β-catenin, and increased phospho-β-catenin are associated with few cell-cell contacts. Wnt3a increased VIC cell number, proliferation, nuclear β-catenin and β-catenin-mediated transcription without affecting activation and apoptosis, and proliferation is abolished by β-catenin siRNA. Thus, N-cadherin/β-catenin cell-cell contacts may inhibit VIC activation and Wnt3a/β-catenin signaling may increase VIC proliferation.

heart valve interstitial cell

beta-catenin

activation

proliferation

0571

Identifying Pharmacological Therapeutics for Aggressive Fibromatosis

Hong, Helen

30 May 2011

Aggressive fibromatosis is a fibroproliferative tumour that can occur as a sporadic lesion or a manifestation in FAP patients. Tumours are characterized by the stabilization of beta-catenin. Current therapies have yet to offer complete success for primary and recurrent tumours, and there remains a need for more effective therapeutic strategies. In this work, we demonstrate the anti-neoplastic and beta-catenin modulating capacities of Nefopam, a currently approved analgesic agent. We found that Nefopam was able to decrease cell viability and proliferation as well as total beta-catenin levels in human aggressive fibromatosis tumour cells in vitro. Furthermore, Nefopam reduced the number of tumours formed in the Apc+/Apc1638N aggressive fibromatosis mouse model. We also demonstrated that androgens contribute to the development of tumours and could also modulate beta-catenin levels as indicated in Testosterone-treated orchidectomized Apc+/Apc1638N mice. Together, this work suggests that Nefopam and androgen signaling-blocking agents are potential candidates to effectively manage aggressive fibromatosis.

aggressive fibromatosis

beta-catenin

wnt signaling

mouse model

0307

0992

Valve Interstitial Cell Activation and Proliferation are Associated with Changes in Beta-catenin

Xu, Songyi

26 March 2012

Heart valve interstitial cells (VICs) undergo activation and proliferation in repair and disease, but the mechanisms are not fully understood. We hypothesize that the establishment of N-cadherin/β-catenin cell-cell contacts may decrease VIC activation, and that Wnt3a/β-catenin signaling may increase VIC proliferation. VIC cultures of different densities are stained for α-SMA, cofilin, TGF-β, pSmad2/3, N-cadherin and β-catenin, and probed for phospho-β-catenin by Western blot. Low density VIC cultures are treated with exogenous Wnt3a and measured for cell number, proliferation, apoptosis, α-SMA, β-catenin, and β-catenin-mediated transcription. β-Catenin siRNA knockdown is used to assess β-catenin specificity. Increased staining of α-SMA, cofilin, TGF-β, pSmad2/3, nuclear β-catenin, and increased phospho-β-catenin are associated with few cell-cell contacts. Wnt3a increased VIC cell number, proliferation, nuclear β-catenin and β-catenin-mediated transcription without affecting activation and apoptosis, and proliferation is abolished by β-catenin siRNA. Thus, N-cadherin/β-catenin cell-cell contacts may inhibit VIC activation and Wnt3a/β-catenin signaling may increase VIC proliferation.

heart valve interstitial cell

beta-catenin

activation

proliferation

0571

Crosstalk between Insulin and Wnt Signaling Pathways

Sun, Jane

03 March 2010

Type II diabetes and hyperinsulinemia are associated with increased risks of developing colorectal cancer (CRC). Detailed mechanisms underlying this correlation, however, are yet to be explored. The present study demonstrates that insulin increases the expression of proto-oncogenes c-Myc and cyclin D1 via both translational and transcriptional mechanisms. We show here that insulin stimulates c-Myc gene translation via an Akt/PKB-dependent mechanism involving the mTOR signaling pathway. More importantly, we show for the first time that transcriptional stimulation of c-Myc and cyclin D1 expression by insulin involves a novel Akt/PKB-independent signal crosstalk between insulin and canonical Wnt signaling pathways. We then identified p21-activated protein kianse 1 (PAK-1) as a novel mediator for insulin and Wnt/beta-catenin (b-cat) molecular crosstalk, involving MEK/ERK signaling. Furthermore, we found that insulin treatment leads to increased b-cat phosphorylation at Ser675, and this is associated with increased b-cat nuclear content and increased b-cat interaction with Tcf/Lef-binding elements (TBEs) of the human c-Myc gene promoter. Lastly, we demonstrated that insulin signaling directly alters the expression levels of components of the Wnt signaling pathway, including fizzled homology 4 (Fdz-4) and TCF7L2 (=TCF-4). This study not only demonstrated the existence of signaling crosstalk between insulin and canonical Wnt signaling pathways at multiple levels, it reveals molecular mechanisms for observed correlation between CRC and hyperinsulinemia. The growing evidence implicating PAK-1 in various human tumorigenesis has emerged PAK-1 as a potential therapeutic target. Our discovery of PAK-1 functioning as a novel central mediator for insulin and Wnt signaling crosstalk in intestinal cells suggests that PAK-1 may potentially be a good target candidate for treating patients with CRC, especially those who have Type II diabetes or experience hyperinsulinemia.

colorectal cancer

Type 2 Diabetes

beta-catenin

insulin

0307

Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme

Bastarache, Sophie

26 August 2011

The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway.

USP4

Ubiquitin

Proteasome

B-catenin

Wnt signaling

GRK2

The Role of Chibby as a Potential Tumor Suppressor Gene in Human Cervical Cancer

Huang, Yen-Lin

02 September 2010

The Wnt signaling pathway is highly conserved and participates in many important cellular functions including differentiation, embryonic development and tissue generations. £]-catenin, the central mediator of the Wnt signaling, interacts with the TCF/LEF family of transcription factors in the nucleus and initiates downstream gene transcription. In addition, £]-catenin is known as a proto-oncogene implicated in numerous cancers including colorectal, cervical, endometrial and skin cancer. Chibby (Cby) is evolutionarily conserved in many species and acts as a repressor of Wnt/£]-catenin signaling. In our previous study, we have established that Cby over-expression attenuated £]-catenin translocation to nucleus and its transcriptional activity. Thus, it was hypothesized that Cby may possess potential tumor suppressing capabilities. In the present study, we first explored endogenous Cby expression status in human cervical cancer cells: HeLa and SiHa cell lines. It was observed that Cby mRNA and protein levels were significantly down-regulated in both cancer lines compared with primary cervical cells. We then conducted functional assays of tumorigenicity on both cells using adenoviral-encoded Cby and its NLS (nuclear localization signaling) deleted variant (Cby∆NLS). It was found that gene delivery of Cby or Cby∆NLS inhibited the proliferation, invasiveness, and colony forming in HeLa and SiHa cells. Immunofluorescent analysis revealed that Cby or Cby∆NLS gene transfer reduced the expression of Ki-67, a cell proliferative marker. Furthermore, Cby or Cby∆NLS restoration induced apoptosis and perturbed cell cycle progression in both cervical cancer cells. Finally, Cby over-expression decreases the expression of £]-catenin/TCF4 regulated genes such as c-myc and PCNA, which might contributed to the anti-neoplastic mechanism for Cby in cervical cancer cell lines. Our results strongly suggest that Cby may serve as a tumor suppressor gene during cervical carcinogenesis, and may facilitate in creation of new therapeutic methods.

Wnt

oncogene

£]-catenin

adenovirus

SiHa

HeLa

cervical cancer

chibby

The role of LECT2 in liver carcinogenesis

Wu, Ping-Hsuan

24 August 2011

Leukocyte cell-derived chemotaxin 2 (LECT2) is first isolated as a 16-kDa secreted protein from cultured fluid of phytohemagglutinin-activated human T-cell leukemia SKW-3 cells. Recently LECT2 has shown to be synthesized by human hepatocytes and stimulates the growth of chondrocytes. LECT2 is involved in chemotactic factor to neutrophils and may be associated with rheumatoid arthritis. Besides, LECT2 is evolutionarily conserved and acts as a repressor in the Wnt/£]-catenin signaling pathway. Wnt/£]-catenin signaling is implicated in liver carcinogenesis. However, the exact roles of LECT2 in liver carcinogenesis are not yet well characterized. This study is to investigate the extra roles of LECT2 in Wnt signaling. Our results showed that adenoviral administration of LECT2 over-expression suppress oncogenic processes such as migration, invasion, proliferation and colony formation, as well as alteration in cell cycle distributions. In animal model significantly suppress liver malignancies in orthotopic Novikoff hepatoma. In conclusion, we show that ad-LECT2 gene delivery attenuated cell carcinogenesis process via downregulated Wnt/£]-catenin signaling in vitro and suppressed tumor growth in vivo. Besides LECT2 over-expression represents a novel therapeutically factor for hepatocelluar carcinoma.

Wnt pathway

£]-catenin

Hepatocellular carcinoma

cellular signaling

LECT2