在短肠综合征中抑制成纤维细胞生长因子信号传导会增加体重减轻和上皮细胞增殖。
Inhibition of Fgf signaling in short bowel syndrome increases weight loss and epithelial proliferation.
作者信息
Schall Kathy A, Holoyda Kathleen A, Isani Mubina, Lien Ching-Ling, Al Alam Denise, Grikscheit Tracy C
机构信息
Division of Pediatric Surgery and Developmental Biology and Regenerative Medicine, Saban Research Institute, Children's Hospital Los Angeles and USC Keck School of Medicine, Los Angeles, CA.
Division of and Cardiothoracic Surgery, Saban Research Institute, Children's Hospital Los Angeles and USC Keck School of Medicine, Los Angeles, CA.
出版信息
Surgery. 2017 Mar;161(3):694-703. doi: 10.1016/j.surg.2016.08.044. Epub 2016 Oct 19.
BACKGROUND
Signaling by fibroblast growth factor is critical for epithelial proliferation, differentiation, and the development of many organs, including the intestine. Fibroblast growth factor 10 and fibroblast growth factor 2c are upregulated after massive bowel resection during intestinal adaptation. This pathway is conserved highly. We hypothesized that inhibition of fibroblast growth factor signaling would impair intestinal adaptation in the zebrafish model of short bowel syndrome and allow insight into the negative regulation of this pathway.
METHODS
Short bowel syndrome equivalent to a high jejunostomy was generated in adult male hsp70:dnfgfr1-GFP zebrafish, wildtype fish exposed to tyrosine-kinase inhibitor, and wildtype fish in absence of tyrosine-kinase inhibitor. Heat shock in hsp70:dnfgfr1-GFP fish decreases fgf 1 expression. Parameters including weight, proliferation, and differentiation were evaluated after harvest in experimental and control groups.
RESULTS
Although short bowel syndrome zebrafish lost more weight relative to sham zebrafish in both groups, heat shock fish with short bowel syndrome lost more weight compared with non-heat shock fish with short bowel syndrome. In the non-heat shock controls, the villus epithelial perimeter increased in short bowel syndrome compared with sham fish, but this did not occur in heat shock fish. Non-heat shock fish with short bowel syndrome fish had significantly increased Bromodeoxyuridine(+) proliferative cells per hemivillus compared with non-heat shock-sham, while heat shock-short bowel syndrome had a more substantial increase in Bromodeoxyuridine(+) cells compared with HS-sham. Non-heat shock-short bowel syndrome demonstrated a significantly increased percentage of Alcian blue(+) goblet cells per hemivillus compared with non-heat shock-sham, while the heat shock-short bowel syndrome demonstrated decreased Alcian blue(+) cells compared with non-heat shock-short bowel syndrome. In contrast, SU5402 inhibited epithelial proliferation while increasing weight loss.
CONCLUSION
Inhibition of fibroblast growth factor-1 signaling in short bowel syndrome decreases epithelial adaptation, increases Bromodeoxyuridine-labeled cells at 2 weeks, and exacerbates weight loss while decreasing epithelial goblet cells.
背景
成纤维细胞生长因子信号传导对于上皮细胞增殖、分化以及包括肠道在内的许多器官的发育至关重要。在肠道适应性改变过程中,成纤维细胞生长因子10和成纤维细胞生长因子2c在大规模肠切除术后会上调。该信号通路高度保守。我们推测,在短肠综合征斑马鱼模型中抑制成纤维细胞生长因子信号传导会损害肠道适应性,并有助于深入了解该信号通路的负调控机制。
方法
在成年雄性hsp70:dnfgfr1-GFP斑马鱼、暴露于酪氨酸激酶抑制剂的野生型鱼以及未使用酪氨酸激酶抑制剂的野生型鱼中建立相当于高位空肠造口术的短肠综合征模型。对hsp70:dnfgfr1-GFP鱼进行热休克会降低fgf 1表达。在实验组和对照组收获后评估包括体重、增殖和分化在内的参数。
结果
尽管两组中短肠综合征斑马鱼相对于假手术斑马鱼体重减轻更多,但短肠综合征热休克鱼比短肠综合征非热休克鱼体重减轻更多。在非热休克对照组中,与假手术鱼相比,短肠综合征鱼的绒毛上皮周长增加,但热休克鱼未出现这种情况。与非热休克假手术组相比,短肠综合征非热休克鱼每半根绒毛的溴脱氧尿苷(+)增殖细胞显著增加,而与热休克假手术组相比,热休克短肠综合征组的溴脱氧尿苷(+)细胞增加更为显著。与非热休克假手术组相比,非热休克短肠综合征组每半根绒毛的阿尔新蓝(+)杯状细胞百分比显著增加,而与非热休克短肠综合征组相比,热休克短肠综合征组的阿尔新蓝(+)细胞减少。相比之下,SU5402抑制上皮细胞增殖,同时增加体重减轻。
结论
在短肠综合征中抑制成纤维细胞生长因子-1信号传导会降低上皮细胞适应性,在2周时增加溴脱氧尿苷标记的细胞,加重体重减轻,同时减少上皮杯状细胞。
Zotero 插件