Suppressive Effect of Pioglitazone, a PPAR Gamma Ligand, on Azoxymethane-induced Colon Aberrant Crypt Foci in KK-A<sup>у</sup>Mice

Ueno, Tetsuo; Teraoka, Naoya; Takasu, Shinji; Nakano, Kenji; Takahashi, Mami; Yamamoto, Masafumi; Fujii, Gen; Komiya, Masami; Yanaka, Akinori; Wakabayashi, Keiji; Mutoh, Michihiro

doi:10.7314/apjcp.2012.13.8.4067

Cited by 15 publications

(12 citation statements)

References 28 publications

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“…Long‐term treatment with long‐acting insulin on C57BL/KsJ‐ db/db mice, which lack a leptin receptor, revealed that insulin increases colonic epithelial cell proliferation, and formation of ACF . Moreover, the anti‐insulin resistant medicine pioglitazone prevented ACF development in KK‐ A y mice through improvement of serum insulin levels, and increase of p27 and p53 mRNA levels in the colorectal mucosa . Hence, it seems likely that hyperinsulinemia in the KK‐ A y and KK mice enhanced the development of AOM‐induced ACF in the present study.…”

Section: Discussionmentioning

confidence: 99%

“…(10)(11)(12) Moreover, the anti-insulin resistant medicine pioglitazone prevented ACF development in KK-A y mice through improvement of serum insulin levels, and increase of p27 and p53 mRNA levels in the colorectal mucosa. (13) Hence, it seems likely that hyperinsulinemia in the KK-A y and KK mice enhanced the development of AOM-induced ACF in the present study. In addition, hyperglycemia and hypertriglyceridemia may also contribute to the development of ACF.…”

Section: Discussionmentioning

confidence: 99%

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A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

Ito

Ishigamori²,

Mutoh³

et al. 2013

Cancer Science

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The incidence of colorectal cancer has been increasing and is associated with obesity and diabetes. We have found that type 2 diabetes model KK-A y ⁄ TaJcl (KK-A y ) mice develop tumors within a short period after treatment with azoxymethane (AOM). However, factors that contribute to the promotion of carcinogenesis have not been clarified. Therefore, we looked at the genetic background of KK-A y , including two genetic characteristics of KK ⁄ TaJcl (KK) mice and C57BL ⁄ 6J-Ham-A y ⁄ + (A y ) mice, compared with other non-obese and non-diabetic mouse strains C57BL ⁄ 6J and ICR, and induced colorectal premalignant lesions, aberrant crypt foci (ACF), and tumors using AOM (150 lg ⁄ mouse ⁄ week for 4 weeks and 200 lg ⁄ mouse ⁄ week for 6 weeks, respectively). The mice with a diabetes feature, KK-A y and KK, developed significantly more ACF, 67 and 61 per mouse, respectively, whereas ICR, A y , and C57BL ⁄ 6J mice developed 42, 24, and 18 ACF ⁄ mouse, respectively, at 17 weeks of age. Serum insulin and triglyceride levels in KK-A y and KK mice were quite high compared with other non-diabetic mouse strains. Interestingly, KK-A y mice developed more colorectal tumors (2.7 AE 2.3 tumor ⁄ mouse) than KK mice (1.2 AE 1.1 tumor ⁄ mouse) at 25 weeks of age, in spite of similar diabetic conditions. The colon cancers that developed in both KK-A y and KK mice showed similar activation of bcatenin signaling. However, mRNA levels of inflammatory factors related to the activation of macrophages were significantly higher in colorectal cancer of KK-A y mice than in KK. These data indicate that factors such as insulin resistance and dyslipidemia observed in obese and diabetic patients could be involved in susceptibility to colorectal carcinogenesis. In addition, increase of tumor-associated macrophages may play important roles in the stages of promotion of colorectal cancer. (Cancer Sci 2013; 104: 835-843)

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

Ito

Ishigamori²,

Mutoh³

et al. 2013

Cancer Science

Self Cite

View full text Add to dashboard Cite

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“…PPAR gamma is also present in other tissues, such as breast [70,71], colon [72][73][74], lung [75,76], ovary [77,78], prostate [79,80] and thyroid [81,82] wherein it mediates several specific functions, such as early development [83], cell proliferation [84], differentiation [85], apoptosis [86], and metabolic homeostasis [87]. Many investigators [88][89][90][91][92][93][94][95][96][97] reported that PPAR gamma was also involved in the control of transcriptional regulation of autophagy.…”

Section: Newly Participant Of Autophagy Regulation: Pparsmentioning

confidence: 99%

The update on transcriptional regulation of autophagy in normal and pathologic cells: A novel therapeutic target

Zhang

Guo

Zhao

et al. 2015

Biomedicine & Pharmacotherapy

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“…There is significant evidence from models of diabetes, arthritis, atherosclerosis, Parkinson’s disease, Alzheimer’s disease and others that administration of PPAR natural ligands and synthetic agonists has anti-inflammatory effects. Specific reductions in proinflammatory chemokines and cytokines has been observed in numerous cells types: renal cells (Wang et al, 2011; Lu et al, 2013), vascular smooth muscle cells (Marchesi et al, 2013), adipocytes (Guri et al, 2008; Ueno et al, 2012), mesothelial cells (Sauter et al, 2012), epithelial cells (Neri et al, 2011), splenocytes (Bassaganya-Riera et al, 2011), monocytes/macrophages (Han et al, 2005; Tanaka et al, 2005; Hounoki et al, 2008; Liu et al, 2012), astrocytes (Lee et al, 2008, 2012), and microglia (Kim et al, 2012). …”

Section: Ppar Agonists Can Alter Chemokine Expressionmentioning

confidence: 99%

Peroxisome proliferator-activated receptor agonists modulate neuropathic pain: a link to chemokines?

Freitag

Miller

2014

Front. Cell. Neurosci.

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Chronic pain presents a widespread and intractable medical problem. While numerous pharmaceuticals are used to treat chronic pain, drugs that are safe for extended use and highly effective at treating the most severe pain do not yet exist. Chronic pain resulting from nervous system injury (neuropathic pain) is common in conditions ranging from multiple sclerosis to HIV-1 infection to type II diabetes. Inflammation caused by neuropathy is believed to contribute to the generation and maintenance of neuropathic pain. Chemokines are key inflammatory mediators, several of which (MCP-1, RANTES, MIP-1α, fractalkine, SDF-1 among others) have been linked to chronic, neuropathic pain in both human conditions and animal models. The important roles chemokines play in inflammation and pain make them an attractive therapeutic target. Peroxisome proliferator-activated receptors (PPARs) are a family of nuclear receptors known for their roles in metabolism. Recent research has revealed that PPARs also play a role in inflammatory gene repression. PPAR agonists have wide-ranging effects including inhibition of chemokine expression and pain behavior reduction in animal models. Experimental evidence suggests a connection between the pain ameliorating effects of PPAR agonists and suppression of inflammatory gene expression, including chemokines. In early clinical research, one PPARα agonist, palmitoylethanolamide (PEA), shows promise in relieving chronic pain. If this link can be better established, PPAR agonists may represent a new drug therapy for neuropathic pain.

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Suppressive Effect of Pioglitazone, a PPAR Gamma Ligand, on Azoxymethane-induced Colon Aberrant Crypt Foci in KK-A^уMice

Cited by 15 publications

References 28 publications

A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

The update on transcriptional regulation of autophagy in normal and pathologic cells: A novel therapeutic target

Peroxisome proliferator-activated receptor agonists modulate neuropathic pain: a link to chemokines?

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Suppressive Effect of Pioglitazone, a PPAR Gamma Ligand, on Azoxymethane-induced Colon Aberrant Crypt Foci in KK-AуMice

Cited by 15 publications

References 28 publications

Ay allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

Ay allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

The update on transcriptional regulation of autophagy in normal and pathologic cells: A novel therapeutic target

Peroxisome proliferator-activated receptor agonists modulate neuropathic pain: a link to chemokines?

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Product

Resources

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Suppressive Effect of Pioglitazone, a PPAR Gamma Ligand, on Azoxymethane-induced Colon Aberrant Crypt Foci in KK-A^уMice

A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice

A^y allele promotes azoxymethane‐induced colorectal carcinogenesis by macrophage migration in hyperlipidemic/diabetic KK mice