Gastrin induces ductal cell dedifferentiation and β-cell neogenesis after 90% pancreatectomy

Téllez, Noèlia; Montanya, Eduard

doi:10.1530/joe-14-0222

Cited by 30 publications

(26 citation statements)

References 51 publications

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“…Several studies have reported that H. pylori seropositivity was associated with different hormones [2,[8][9][10], most of which were involved in glucose metabolism directly or indirectly [11][12][13][14][15][16][17]. To our knowledge, at least three hormones supported our results, including gastrin, leptin and ghrelin.…”

Section: Discussionsupporting

confidence: 85%

The association between Helicobacter pylori seropositivity and risk of new-onset diabetes: a prospective cohort study

Zhou

Liu

et al. 2017

Diabetologia

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Aims/hypothesis Previous studies have suggested a possible connection between Helicobacter pylori (H. pylori) infection and diabetes risk. However, prospective studies examining direct associations between these two factors are relatively lacking. In this prospective cohort study, we aimed to evaluate the association between H. pylori infection and risk of developing diabetes. Methods We performed a population-based prospective study, recruiting participants aged 45-74 years and without diabetes from the Chinese Multi-provincial Cohort Study in 2002, with a 10 year follow-up to investigate development of diabetes. H. pylori serostatus was determined by measuring serum H. pylori antibodies. H. pylori seropositivity was defined as the antibody concentration ≥ 10 U/ml. To examine the association between H. pylori seropositivity and diabetes risk, modified Poisson regression was performed. Results Of 2085 participants without diabetes, 1208 (57.9%) were H. pylori seropositive in 2002. After multivariate adjustment of possible diabetes risk factors, H. pylori seropositivity was associated with lower risk of diabetes (RR 0.78 [95% CI 0.63, 0.97], p = 0.022). Of the 1275 participants with H. pylori antibody measurements in both 2002 and 2007, 677 (53.1%) were persistently seropositive. A lower risk of diabetes was also observed in participants with persistent H. pylori seropositivity (RR 0.61 [95% CI 0.41, 0.93], p = 0.020), compared with those persistently seronegative. Conclusions/interpretation H. pylori seropositivity was associated with lower risk of diabetes in this prospective cohort study. Extrapolation of these results and the mechanism underlying the observed association require further investigation.

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Section: Discussionsupporting

confidence: 85%

The association between Helicobacter pylori seropositivity and risk of new-onset diabetes: a prospective cohort study

Zhou

Liu

et al. 2017

Diabetologia

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“…Because of potential implications of gastrin in β-cell mass regeneration in rodents [Suarez-Pinzon et al 2008;Suissa et al 2013], a recent study evaluated the role of gastrin in promoting β-cell neogenesis from ductal cells in 90% Px rats [Tellez and Montanya, 2014]. In the gastrin-treated mice, strong proliferation activity was Xu et al [2006] In vivo Treatment with exendin-4 facilitated β-cell neogenesis in pancreatic ducts Tokui et al [2006] In vivo Betacellulin promoted ductal differentiation towards insulin-expressing cells Inada et al [2008] In vivo β-cell mass replenishment occurred from ductal cells 2 weeks post PDL Bonner-Weir et al [2008] In vivo Partial pancreatic tissue regeneration occurred from ductal cells Xu et al [2008] In vivo Re-expression of NGN3 in ductal lining cells occurred 1 week after PDL Criscimanna et al [2011] In vivo Proliferative ducts expressed acinar and endocrine markers 3/4 weeks post-DT injection Wang et al [2012] In vivo Administration of gastrin and EGF increased β-cell neogenesis Pfeifer et al [2013] In vivo Requirement of EMT for duct-lining cells differentiation into endocrine cells In vivo Continuous activation of NGN3 + cells along the lining duct occurred after ARX inhibition Téllez et al [2014] In vivo Appearance of β-cell clusters from ductal epithelium occurred 3 days post 90% Px Lemaire et al [2015] In vivo Bicaudal C1 expressed in duct lining cells was essential for progenitor differentiation Yamaguchi et al [2015] In vivo Pancreatic ductal glands contained niches of progenitor cells Carpino et al [2015] In vivo Pancreatic ductal glands as container of niches for pancreatic precursors Napolitano et al [2015] In vivo Continuous activation of NGN3 + cells along the lining duct occurred after PAX4 overexpression El-Gohary et al [2016] In vivo Duct-to-β-cell conversion occurred after partial Px in mice overexpressing TGF-β receptor Zhang et al [2016] In vivo Conversion of SOX9 + cells into insulin-producing cells occurred after administration of gastrin and EGF Seaberg et al [2004] In vitro Progenitor colonies arose from islet and ducts cultured with EGF and FGF2 Rovira et al [2010] In vitro Centroacinar/terminal ductal cells with progenitor-like phenotype ARX, aristaless related homeobox; DT, diphtheria toxin; EGF, epidermal growth factor; EMT, epithelial-mesenchymal transition; PDL, pancreatic duct ligation; Px, pancreatectomy; TGF, transforming growth factor.…”

Section: In Vivo Studies On Pancreatic Progenitorsmentioning

confidence: 99%

β-cell replacement sources for type 1 diabetes: a focus on pancreatic ductal cells

Corritore

Lee

Sokal

et al. 2016

Therapeutic Advances in Endocrinology

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Thorough research on the capacity of human islet transplantation to cure type 1 diabetes led to the achievement of 3-to 5-year-long insulin independence in nearly half of transplanted patients. Yet, translation of this technique to clinical routine is limited by organ shortage and the need for long-term immunosuppression, restricting its use to adults with unstable disease. The production of new bona fide β cells in vitro was thus investigated and finally achieved with human pluripotent stem cells (PSCs). Besides ethical concerns about the use of human embryos, studies are now evaluating the possibility of circumventing the spontaneous tumor formation associated with transplantation of PSCs. These issues fueled the search for cell candidates for β-cell engineering with safe profiles for clinical translation. In vivo studies revealed the regeneration capacity of the exocrine pancreas after injury that depends at least partially on facultative progenitors in the ductal compartment. These stimulated subpopulations of pancreatic ductal cells (PDCs) underwent β-cell transdifferentiation through reactivation of embryonic signaling pathways. In vitro models for expansion and differentiation of purified PDCs toward insulin-producing cells were described using cocktails of growth factors, extracellular-matrix proteins and transcription factor overexpression. In this review, we will describe the latest findings in pancreatic β-cell mass regeneration due to adult ductal progenitor cells. We will further describe recent advances in human PDC transdifferentiation to insulin-producing cells with potential for clinical translational studies.

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“…Ninety percent Px was performed as described previously (50). Briefly, animals were anesthetized with 5% isoflurane (Forane; Abbott) and maintained anesthetized with an isoflurane (1.5%) air mixture.…”

Section: Pancreatectomy and Pancreatic Remnant Harvestingmentioning

confidence: 99%

“…Thus, duct cell mass was determined using the traditional point-counting method on keratin 20-labeled sections (Table 1) (50). A nomogram relating number of points counted to volume density and expected relative standard error in percentage of mean (Ͻ10%) was used to determine the number of intercepts needed for a representative sampling (32).…”

Section: Morphometrymentioning

confidence: 99%

“…In young rodents, gastrin overexpression and pharmacological treatment stimulate duct cell plasticity, leading to ␤-cell neogenesis (36,46,53,57), and in Px rats gastrin treatment stimulates duct cell plasticity, ␤-cell neogenesis, and ␤-cell replication, resulting in increased ␤-cell mass and improved metabolic control (49,50). In this study we have used these two different experimental conditions, the 90%-Px model and gastrin treatment, to investigate the ␤-cell regeneration potential of middle-aged rats.…”

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confidence: 99%

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β-Cell dedifferentiation, reduced duct cell plasticity, and impaired β-cell mass regeneration in middle-aged rats

Téllez

Vilaseca

Martí

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

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Téllez N, Vilaseca M, Martí Y, Pla A, Montanya E. ␤-Cell dedifferentiation, reduced duct cell plasticity, and impaired ␤-cell mass regeneration in middle-aged rats. Am J Physiol Endocrinol Metab 311: E554 -E563, 2016. First published July 12, 2016 doi:10.1152/ajpendo.00502.2015.-Limitations in ␤-cell regeneration potential in middle-aged animals could contribute to the increased risk to develop diabetes associated with aging. We investigated ␤-cell regeneration of middle-aged Wistar rats in response to two different regenerative stimuli: partial pancreatectomy (Px ϩ V) and gastrin administration (Px ϩ G). Pancreatic remnants were analyzed 3 and 14 days after surgery. ␤-Cell mass increased in young animals after Px and was further increased after gastrin treatment. In contrast, ␤-cell mass did not change after Px or after gastrin treatment in middle-aged rats. ␤-Cell replication and individual ␤-cell size were similarly increased after Px in young and middle-aged animals, and ␤-cell apoptosis was not modified. Nuclear immunolocalization of neurog3 or nkx6.1 in regenerative duct cells, markers of duct cell plasticity, was increased in young but not in middle-aged Px rats. The pancreatic progenitor-associated transcription factors neurog3 and sox9 were upregulated in islet ␤-cells of middle-aged rats and further increased after Px. The percentage of chromogranin Aϩ/hormone islet cells was significantly increased in the pancreases of middle-aged Px rats. In summary, the potential for compensatory ␤-cell hyperplasia and hypertrophy was retained in middle-aged rats, but ␤-cell dedifferentiation and impaired duct cell plasticity limited ␤-cell regeneration.aging; regeneration; ␤-cell replication; duct cell plasticity; ␤-cell dedifferentiation; gastrin THE INCIDENCE OF TYPE 2 DIABETES (T2D) increases with aging (8), but the factors contributing to this higher risk are not well established. Although age-related impairments of ␤-cell function and insulin action have been associated largely with the development of T2D (11), limitations in ␤-cell regenerative capacity could also contribute to increase the risk of diabetes in aged individuals. ␤-Cell mass expands throughout life in rodents and humans (14,31,38), and in young adults it increases in response to the metabolic challenges imposed by obesity, insulin resistance, or pregnancy (7, 38). However, the decline in ␤-cell replication in middle-aged individuals (28, 31, 34) may limit the capacity of ␤-cell mass to expand (51). The ␤-cell replicative response has been reported as completely blunted in middle-aged mice (35, 51), but increased ␤-cell replication has been identified in middle-aged humans and rodents in particular physiological and experimental contexts (27,29,44). Thus, it is unclear whether limitations in ␤-cell replication may reduce the capacity of ␤-cell mass to expand in middle-aged individuals. Moreover, little is known about aging and ␤-cell neogenesis and ␤-cell hypertrophy, the two main additional mechanisms of ␤-cell mass expansion.Partial pancreate...

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Gastrin induces ductal cell dedifferentiation and β-cell neogenesis after 90% pancreatectomy

Cited by 30 publications

References 51 publications

The association between Helicobacter pylori seropositivity and risk of new-onset diabetes: a prospective cohort study

The association between Helicobacter pylori seropositivity and risk of new-onset diabetes: a prospective cohort study

β-cell replacement sources for type 1 diabetes: a focus on pancreatic ductal cells

β-Cell dedifferentiation, reduced duct cell plasticity, and impaired β-cell mass regeneration in middle-aged rats

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