NHMRC Clinical Trials Centre, University of Sydney, Sydney, NSW, Australia.
Department of Medicine, University of Melbourne, Melbourne, VIC, Australia.
Sci Rep. 2021 Jun 3;11(1):11727. doi: 10.1038/s41598-021-90856-6.
The aim of this cross-sectional study was to compare plasma C-peptide presence and levels in people without diabetes (CON) and with Type 1 diabetes and relate C-peptide status to clinical factors. In a subset we evaluated 50 microRNAs (miRs) previously implicated in beta-cell death and associations with clinical status and C-peptide levels. Diabetes age of onset was stratified as adult (≥ 18 y.o) or childhood (< 18 y.o.), and diabetes duration was stratified as ≤ 10 years, 10-20 years and > 20 years. Plasma C-peptide was measured by ultrasensitive ELISA. Plasma miRs were quantified using TaqMan probe-primer mix on an OpenArray platform. C-peptide was detectable in 55.3% of (n = 349) people with diabetes, including 64.1% of adults and 34.0% of youth with diabetes, p < 0.0001 and in all (n = 253) participants without diabetes (CON). C-peptide levels, when detectable, were lower in the individuals with diabetes than in the CON group [median lower quartile (LQ)-upper quartile (UQ)] 5.0 (2.6-28.7) versus 650.9 (401.2-732.4) pmol/L respectively, p < 0.0001 and lower in childhood versus adult-onset diabetes [median (LQ-UQ) 4.2 (2.6-12.2) pmol/L vs. 8.0 (2.3-80.5) pmol/L, p = 0.02, respectively]. In the childhood-onset group more people with longer diabetes duration (> 20 years) had detectable C-peptide (60%) than in those with shorter diabetes duration (39%, p for trend < 0.05). Nine miRs significantly correlated with detectable C-peptide levels in people with diabetes and 16 miRs correlated with C-peptide levels in CON. Our cross-sectional study results are supportive of (a) greater beta-cell function loss in younger onset Type 1 diabetes; (b) persistent insulin secretion in adult-onset diabetes and possibly regenerative secretion in childhood-onset long diabetes duration; and (c) relationships of C-peptide levels with circulating miRs. Confirmatory clinical studies and related basic science studies are merited.
本横断面研究旨在比较无糖尿病(CON)人群和 1 型糖尿病患者的血浆 C 肽存在情况和水平,并将 C 肽状态与临床因素相关联。在亚组中,我们评估了 50 个先前与β细胞死亡相关的 microRNAs(miRs),并评估了它们与临床状态和 C 肽水平的关联。糖尿病发病年龄分为成年(≥18 岁)或儿童(<18 岁),糖尿病病程分为≤10 年、10-20 年和>20 年。采用超敏 ELISA 法测定血浆 C 肽水平。采用 TaqMan 探针-引物混合物在 OpenArray 平台上定量检测血浆 miRs。在 349 名(n=349)糖尿病患者中,有 55.3%(n=349)可检测到 C 肽,其中 64.1%的成年患者和 34.0%的儿童患者可检测到 C 肽,p<0.0001,在所有(n=253)无糖尿病(CON)患者中也可检测到 C 肽。在可检测到 C 肽的个体中,糖尿病患者的 C 肽水平低于 CON 组[中位数(下四分位数-上四分位数)]5.0(2.6-28.7)与 650.9(401.2-732.4)pmol/L,p<0.0001,儿童期发病的糖尿病患者低于成年期发病的糖尿病患者[中位数(下四分位数-上四分位数)4.2(2.6-12.2)pmol/L 与 8.0(2.3-80.5)pmol/L,p=0.02]。在儿童期发病的患者中,糖尿病病程较长(>20 年)的患者中可检测到 C 肽的比例(60%)高于病程较短(39%)的患者(p 趋势<0.05)。在糖尿病患者中,有 9 个 miRs 与可检测到的 C 肽水平显著相关,在 CON 患者中,有 16 个 miRs 与 C 肽水平相关。我们的横断面研究结果支持以下观点:(a)在发病年龄较小的 1 型糖尿病中,β细胞功能丧失更大;(b)在成年发病的糖尿病中持续存在胰岛素分泌,并且在儿童发病的长病程糖尿病中可能存在再生性分泌;(c)C 肽水平与循环 miRs 的关系。值得进行确证性临床研究和相关基础科学研究。
