Ingrid Koerber-Rosso, Stephanie Brandt, Julia von Schnurbein, Pamela Fischer-Posovszky, Josef Hoegel, Hannah Rabenstein, Reiner Siebert, Martin Wabitsch
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引用次数: 4
Abstract
Leptin (LEP) and leptin receptor (LEPR) play a major role in energy homeostasis, metabolism, and reproductive function. While effects of biallelic likely pathogenic variants (-/-) on the phenotype are well characterized, effects of mono-allelic likely pathogenic variants (wt/-) in the LEP and LEPR gene on the phenotype compared to wild-type homozygosity (wt/wt) have not been systematically investigated. We identified in our systematic review 44 animal studies (15 on Lep, 29 on Lepr) and 39 studies in humans reporting on 130 mono-allelic likely pathogenic variant carriers with 20 distinct LEP variants and 108 heterozygous mono-allelic likely pathogenic variant carriers with 35 distinct LEPR variants. We found indications for a higher weight status in carriers of mono-allelic likely pathogenic variant in the leptin and in the leptin receptor gene compared to wt/wt, in both animal and human studies. In addition, animal studies showed higher body fat percentage in Lep and Lepr wt/- vs wt/wt. Animal studies provided indications for lower leptin levels in Lep wt/- vs. wt/wt and indications for higher leptin levels in Lepr wt/- vs wt/wt. Data on leptin levels in human studies was limited. Evidence for an impaired metabolism in mono-allelic likely pathogenic variants of the leptin and in leptin receptor gene was not conclusive (animal and human studies). Mono-allelic likely pathogenic variants in the leptin and in leptin receptor gene have phenotypic effects disposing to increased body weight and fat accumulation.
瘦素(LEP)和瘦素受体(LEPR)在能量稳态、代谢和生殖功能中起着重要作用。虽然双等位基因可能致病变异(-/-)对表型的影响已经得到了很好的表征,但与野生型纯合性(wt/wt)相比,LEP和LEPR基因中单等位基因可能致病变异(wt/-)对表型的影响尚未得到系统的研究。在我们的系统综述中,我们确定了44项动物研究(15项关于Lep, 29项关于Lepr)和39项人类研究,报告了130个可能的单等位基因致病变异携带者,其中20个不同的Lep变异,108个杂合的可能的单等位基因致病变异携带者,其中35个不同的Lepr变异。我们在动物和人类研究中发现,与体重/体重相比,瘦素和瘦素受体基因中可能致病的单等位基因携带者的体重状况更高。此外,动物研究表明,Lep和Lepr的体脂率比wt/- vs wt/wt更高。动物研究提供了瘦素水平较低的适应症,瘦素水平较低的适应症,瘦素水平较高的适应症,瘦素水平较低的适应症。关于人体瘦素水平的研究数据有限。瘦素和瘦素受体基因的单等位基因可能致病性变异代谢受损的证据尚无定论(动物和人类研究)。瘦素和瘦素受体基因的单等位基因可能致病变异具有导致体重增加和脂肪积累的表型效应。