生长激素缺乏症儿童在接受 rhGH 治疗期间身体成分、脂肪因子、胃泌素和 FGF23 的变化。

Endokrynologia Polska Pub Date : 2024-01-01 Epub Date: 2024-06-26 DOI:10.5603/ep.98923
Alina D Belceanu, Ştefana C Bîlha, Letiţia Leuştean, Maria-Christina Ungureanu, Cristina Preda
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引用次数: 0

摘要

导言:除了加速生长外,生长激素(GH)疗法还能改善GH缺乏症(GHD)儿童的身体成分,这是因为GH与脂质和碳水化合物代谢之间存在相互作用,可能是由脂肪组织分泌的脂肪因子和胃泌素介导的。要促进线性生长,就必须有正常的磷酸盐平衡。成纤维细胞生长因子 23(FGF23)是一种已知的血清磷调节因子,可能是在 GH 治疗期间观察到的肾磷重吸收增加的原因。本研究旨在评估为期一年的 GH 治疗对 GHD 儿童身体成分、脂肪因子、酰化/未酰化胃泌素(AG/UAG)和 FGF23 的影响:对42名青春期前非肥胖GHD儿童进行前瞻性观察研究,在GH替代治疗的第一年对其进行随访,调查脂肪因子、AG/UAG、FGF23和身体成分的变化。将治疗开始前的数据与 GH 治疗 6 个月和 12 个月后的测量结果进行比较:结果:所有平均年龄为 9.2 ± 2.6 岁的儿童都在加速生长。在12个月的治疗过程中,身体总脂肪明显减少,血脂状况有所改善,总骨质密度(BMD)明显增加。瘦素和 UAG 水平明显下降,而脂肪连通素和 AG 值则有所上升。血浆中的 FGF23 和胰岛素生长因子 1 (IGF1) 明显增加,同时血清磷酸盐也有所增加。FGF23 浓度的变化对 BMD 没有影响。FGF23与IGF1和身高标准偏差(SD)之间的密切联系揭示了FGF23在线性生长中的作用。在回归分析模型中,GH疗法会影响瘦素和脂肪连蛋白的变化,但不会影响胃泌素的变化,这与身体组成(瘦肉或脂肪)无关:结论:GH替代疗法可改善GHD儿童的身体组成和脂肪因子谱,并直接影响瘦素和脂肪连素的浓度,而与身体组成无关。此外,GHD儿童的血清磷酸盐增加与FGF23的上调而非抑制有关,鉴于FGF23的磷酸盐作用,这一观察结果出乎意料。要确定 GH/IGF1 轴影响脂肪因子分泌和 FGF23 血浆变化的分子机制,还需要进一步的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in body composition, adipokines, ghrelin, and FGF23 in growth hormone-deficient children during rhGH therapy.

Introduction: Beyond growth acceleration, growth hormone (GH) therapy improves body composition of GH-deficient (GHD) children due to the interaction of GH with lipid and carbohydrate metabolism, possibly mediated by adipokines secreted by adipose tissue and ghrelin. To promote linear growth, it is essential to have normal phosphate homeostasis. Fibroblast growth factor 23 (FGF23) is a known regulator of serum phosphorus and may be responsible for the increased renal phosphorus reabsorption observed during GH therapy. This study aimed to assess the impact of one-year GH therapy on body composition, adipokines, acylated/unacylated ghrelin (AG/UAG), and FGF23 in GHD children.

Material and methods: A prospective observational study of 42 prepubertal, non-obese GHD children followed up in the first year of GH replacement therapy, investigating changes in adipokine profiles, AG/UAG, FGF23, and body composition. Data before therapy onset were compared with measurements obtained after 6 and 12 months of GH therapy.

Results: All children with a mean age of 9.2 ± 2.6 years grew at an accelerated pace. Total body fat decreased significantly, while the lipid profile improved, and total bone mineral density (BMD) significantly increased over the 12 months of treatment. Leptin and UAG levels decreased significantly, whereas adiponectin and AG values increased. A significant increase in plasma FGF23 and insulin growth factor 1 (IGF1) was accompanied by increased serum phosphate. Changes in FGF23 concentration did not have an impact on BMD. The strong association of FGF23 with IGF1 and height standard deviation (SD) could reveal a role of FGF23 in linear growth. In regression analysis models, GH therapy influences the changes of leptin and adiponectin, but not ghrelin, independently of body composition - lean or fat mass.

Conclusions: GH replacement therapy improves body composition and adipokine profile in GHD children and directly impacts leptin and adiponectin concentrations independently of body composition. Also, GHD children have increased serum phosphate, correlated with upregulation rather than with suppression of FGF23, an unexpected observation given the phosphaturic role of FGF23. Further research is needed to identify the molecular mechanisms by which the GH/IGF1 axis influences adipokines secretion and plasma changes of FGF23.

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