Effects of a Paleolithic diet compared to a diabetes diet on leptin binding inhibition in secondary analysis of a randomised cross-over study.

IF 2.8 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM BMC Endocrine Disorders Pub Date : 2024-09-04 DOI:10.1186/s12902-024-01715-0
Maelán Fontes-Villalba, Yvonne Granfeldt, Kristina Sundquist, Ashfaque A Memon, Anna Hedelius, Pedro Carrera-Bastos, Tommy Jönsson
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Abstract

Background: Beneficial effects from practising a Paleolithic diet as compared to a diabetes diet on weight, waist circumference, satiety, leptin, HbA1c and glucose control in randomised controlled trial participants with type 2 diabetes could be due to lower leptin resistance. Support for this hypothesis comes from an in vitro experiment that showed that digested wheat gluten, which is excluded from a Paleolithic diet, inhibits leptin from binding to its receptor, thus indicating a possible dietary cause of leptin resistance. However, the clinical relevance of the latter finding is unclear since removal of enzyme activity from the gluten digest by heat treatment also abolished leptin binding inhibition. Assessment of leptin binding inhibition in vivo is possible by comparison of total leptin levels with those of 'biologically active' leptin bound to its receptor (bioLep).

Objectives: To assess the effects of a Paleolithic diet compared to a diabetes diet on leptin binding inhibition and to replicate our in vitro study.

Methods: BioLep and total leptin levels were measured in secondary analysis of fasting plasma samples from our open label random order three plus three-month long cross-over trial performed in 2005-2007, that compared a Paleolithic diet with a diabetes diet in participants with type 2 diabetes without insulin treatment (per protocol). BioLep was also measured in vitro for known recombinant leptin concentrations incubated with a series of concentrations of 10 kDa spin-filtered digested wheat gluten, with or without prior heat treatment, at 100ºC for 30 min and centrifugation.

Results: There was no difference between diets when comparing differences between bioLep and total leptin levels and their ratio in the 13 participants, three women and 10 men, aged 52-74 years with a mean BMI of 30 kg/m2 and a mean diabetes duration of eight years. We found no carry-over or period effect for bioLep and total leptin. In vitro, wheat gluten digest inhibited leptin binding in a dose-dependent manner but not after heat treatment.

Conclusions: We found no leptin binding inhibition after the Paleolithic or diabetes diet, possibly due to its abolishment from cooking-related heat treatment of wheat gluten.

Trial registration: Registered on 14/02/2007 at ClinicalTrials.gov Identifier: NCT00435240.

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一项随机交叉研究的二次分析显示,与糖尿病饮食相比,旧石器时代饮食对瘦素结合抑制的影响。
背景:与糖尿病饮食相比,旧石器时代饮食对 2 型糖尿病随机对照试验参与者的体重、腰围、饱腹感、瘦素、HbA1c 和血糖控制的有益影响可能是由于瘦素抵抗较低。支持这一假设的体外实验表明,旧石器时代饮食中不包括的消化小麦麸皮会抑制瘦素与其受体的结合,从而表明瘦素抵抗可能是饮食造成的。然而,后一发现的临床意义尚不明确,因为通过热处理去除麸质消化物中的酶活性也会消除瘦素结合抑制作用。通过比较总瘦素水平和与其受体结合的 "生物活性 "瘦素(bioLep)水平,可以评估体内瘦素结合抑制作用:评估旧石器时代饮食与糖尿病饮食对瘦素结合抑制的影响,并复制我们的体外研究:2005年至2007年期间,我们对未接受胰岛素治疗的2型糖尿病患者进行了为期3个月的开放标签随机顺序交叉试验,比较了旧石器时代饮食与糖尿病饮食(按方案),并对空腹血浆样本进行了二次分析。此外,还在体外测量了已知重组瘦素浓度与一系列浓度的 10 kDa 旋光过滤消化小麦麸质(无论事先是否经过热处理)在 100ºC 下孵育 30 分钟并离心的结果:13 名参与者中有 3 名女性和 10 名男性,年龄在 52-74 岁之间,平均体重指数(BMI)为 30 kg/m2,平均糖尿病病程为 8 年,在比较生物瘦素和总瘦素水平的差异及其比率时,不同饮食之间没有差异。我们发现,生物瘦素和总瘦素没有携带效应或周期效应。在体外,小麦麸质消化物以剂量依赖的方式抑制瘦素的结合,但在加热处理后则没有抑制作用:结论:我们发现旧石器时代或糖尿病饮食后没有瘦素结合抑制作用,这可能是由于小麦麸质的烹饪相关热处理导致了瘦素结合抑制作用的消失:试验注册:2007 年 2 月 14 日注册于 ClinicalTrials.gov Identifier:NCT00435240。
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来源期刊
BMC Endocrine Disorders
BMC Endocrine Disorders ENDOCRINOLOGY & METABOLISM-
CiteScore
4.40
自引率
0.00%
发文量
280
审稿时长
>12 weeks
期刊介绍: BMC Endocrine Disorders is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of endocrine disorders, as well as related molecular genetics, pathophysiology, and epidemiology.
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