Petrik J, Reusens B, Arany E, Remacle C, Coelho C, Hoet J J, Hill D J
Lawson Research Institute, St. Joseph's Health Centre, London, Ontario, Canada.
Endocrinology. 1999 Oct;140(10):4861-73. doi: 10.1210/endo.140.10.7042.
A programmed turnover of pancreatic beta cells occurs in the neonatal rat involving a loss of beta cells by apoptosis, and their replacement by islet cell replication and neogenesis. The timing of apoptosis is associated with a loss of expression of a survival factor, insulin-like growth factor-II (IGF-II), in the pancreatic islets. Offspring from rats chronically fed a low protein isocalorific diet (LP) exhibit a reduced pancreatic beta cell mass at birth and a reduced insulin secretion in later life. This study therefore investigated the impact of LP on islet cell ontogeny in the late fetal and neonatal rat, and any associated changes in the presence of IGFs and their binding proteins (IGFBPs). Pregnant Wistar rats were fed either LP (8% protein) or normal (C) (20% protein) chow from shortly after conception until the offspring were 21 days postnatal (PN). Bromo-deoxyuridine (BrdU) was administered 1 h before rats were killed and pancreata removed from animals between 19.5 days fetal life and postnatal day 21. Offspring of rats given LP diet had reduced birthweight, pancreatic beta cell mass, and pancreas insulin content, with smaller islets compared with control fed animals, which persisted to weaning. Histological analysis showed that islets from pups given LP diet had a lower nuclear labeling index with BrdU in the beta cells, although, paradoxically, more beta cells showed immunoreactivity for proliferating cell nuclear antigen (PCNA). Because PCNA is present in G1 as well as S phase of the cell cycle, we quantified the number of beta cells immunopositive for cyclin D1, a marker of G1, and NEK2, an indicator of cells in G2 and mitosis. More beta cells in islets from LP-fed animals contained cyclin D1, but less contained NEK2 than did those in controls. This suggests that the beta cell cycle may have a prolonged G1 phase in LP-fed animals in vivo. Offspring of rats given C diet had a low rate of islet cell apoptosis detected by the TUNEL method in fetal and neonatal life (1-2%), with a transient increase to 8% at PN day 14. Offspring of rats receiving LP diet demonstrated a significantly greater level of islet cell apoptosis at every age, rising to 15% at PN 14. IGF-II mRNA was quantified in whole pancreas and was significantly reduced in LP-fed animals at ages up to PN day 10. IGF-II immunoreactivity within the islets of LP-fed rats was also less apparent, but no changes were seen in immunoreactive IGF-I or IGFBPs-2 to -5. These findings show that LP diet changes the balance of beta cell replication and apoptosis in fetal and neonatal neonatal life, which may involve an altered length of beta cell cycle, and contribute to the smaller islet size and impaired insulin release seen in later life. A reduced pancreatic expression of IGF-II may contribute to the lower beta cell proliferation rate and increased apoptosis seen in the fetus and neonate after feeding LP diet.
新生大鼠胰腺β细胞会发生程序性更替,包括β细胞通过凋亡而丢失,以及通过胰岛细胞复制和新生来替代。凋亡的时间与胰腺胰岛中一种生存因子——胰岛素样生长因子-II(IGF-II)表达的丧失有关。长期喂食低蛋白等热量饮食(LP)的大鼠后代出生时胰腺β细胞数量减少,且在以后的生活中胰岛素分泌减少。因此,本研究调查了LP对晚期胎儿和新生大鼠胰岛细胞个体发育的影响,以及IGF及其结合蛋白(IGFBPs)存在时的任何相关变化。从受孕后不久开始,将怀孕的Wistar大鼠喂食LP(8%蛋白质)或正常(C)(20%蛋白质)饲料,直到后代出生后21天(PN)。在处死大鼠前1小时给予溴脱氧尿苷(BrdU),并在胎儿期19.5天至出生后第21天从动物体内取出胰腺。喂食LP饮食的大鼠后代出生体重、胰腺β细胞数量和胰腺胰岛素含量降低,与对照喂养的动物相比,胰岛较小,这种情况持续到断奶。组织学分析表明,喂食LP饮食的幼崽胰岛中β细胞的BrdU核标记指数较低,尽管矛盾的是,更多的β细胞显示出增殖细胞核抗原(PCNA)的免疫反应性。因为PCNA存在于细胞周期的G1期以及S期,我们对细胞周期蛋白D1(G1期的标志物)和NEK2(G2期和有丝分裂期细胞的指标)免疫阳性的β细胞数量进行了定量。与对照组相比,喂食LP的动物胰岛中含有细胞周期蛋白D1的β细胞更多,但含有NEK2的β细胞更少。这表明在体内喂食LP的动物中,β细胞周期的G1期可能延长。喂食C饮食的大鼠后代在胎儿期和新生儿期(1-2%)通过TUNEL法检测到的胰岛细胞凋亡率较低,在PN第14天短暂升至8%。接受LP饮食的大鼠后代在每个年龄段的胰岛细胞凋亡水平都显著更高,在PN 14天时升至15%。对整个胰腺中的IGF-II mRNA进行定量,发现直到PN第10天,喂食LP的动物中其含量显著降低。喂食LP的大鼠胰岛内的IGF-II免疫反应性也不太明显,但免疫反应性IGF-I或IGFBPs-2至-5未见变化。这些发现表明,LP饮食改变了胎儿期和新生儿期β细胞复制与凋亡的平衡,这可能涉及β细胞周期长度的改变,并导致后期生活中胰岛尺寸较小和胰岛素释放受损。胰腺中IGF-II表达的降低可能导致喂食LP饮食后胎儿和新生儿中β细胞增殖率降低和凋亡增加。
