胰岛素经鼻脑转运后在灵长类动物大脑中的分布。

Distribution of insulin in primate brain following nose-to-brain transport.

作者信息

Smith Kylie, Fan Jinda, Marriner Gwendolyn A, Gerdes John, Kessler Robert, Zinn Kurt R

机构信息

Department of Biomedical Engineering Michigan State University East Lansing Michigan USA.

Institute for Quantitative Health Science and Engineering, Michigan State University East Lansing Michigan USA.

出版信息

Alzheimers Dement (N Y). 2024 Mar 10;10(1):e12459. doi: 10.1002/trc2.12459. eCollection 2024 Jan-Mar.

DOI:10.1002/trc2.12459

PMID:38469552

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10925727/

Abstract

INTRODUCTION

Nose-to-brain (N2B) insulin delivery has potential for Alzheimer's disease (AD) therapy. However, clinical implementation has been challenging without methods to follow N2B delivery non-invasively. Positron emission tomography (PET) was applied to measure F-18-labeled insulin ([F]FB-insulin) from intranasal dosing to brain uptake in non-human primates following N2B delivery.

METHODS

[F]FB-insulin was prepared by reacting A,B-di(tert-butyloxycarbonyl)insulin with [F]--succinimidyl-4-fluorobenzoate. Three methods of N2B delivery for [F]FB-insulin were compared - delivery as aerosol via tubing (rhesus macaque, = 2), as aerosol via preplaced catheter (rhesus macaque, = 3), and as solution via preplaced catheter (cynomolgus macaque, = 3). Following dosing, dynamic PET imaging (120 min) quantified delivery efficiency to the nasal cavity and whole brain. Area under the time-activity curve was calculated for 46 regions of the cynomolgus macaque brain to determine regional [F]FB-insulin levels.

RESULTS

Liquid instillation of [F]FB-insulin by catheter outperformed aerosol methods for delivery to the subject (39.89% injected dose vs 10.03% for aerosol via tubing, 0.17% for aerosol by catheter) and subsequently to brain (0.34% injected dose vs 0.00020% for aerosol via tubing, 0.05% for aerosol by catheter). [F]FB-insulin was rapidly transferred across the cribriform plate to limbic and frontotemporal areas responsible for emotional and memory processing. [F]FB-insulin half-life was longer in olfactory nerve projection sites with high insulin receptor density compared to the whole brain.

DISCUSSION

The catheter-based liquid delivery approach combined with PET imaging successfully tracked the fate of N2B [F]FB-insulin and is thought to be broadly applicable for assessments of other therapeutic agents. This method can be rapidly applied in humans to advance clinical evaluation of N2B insulin as an AD therapeutic.

HIGHLIGHTS FOR

[F]FB-insulin passage across the cribriform plate was detected by PET.Intranasal [F]FB-insulin reached the brain within 13 min.[F]FB-insulin activity was highest in emotional and memory processing regions.Aerosol delivery was less efficient than liquid instillation by preplaced catheter.Insulin delivery to the cribriform plate was critical for arrival in the brain.

摘要

引言

鼻至脑（N2B）胰岛素递送在阿尔茨海默病（AD）治疗中具有潜力。然而，在没有非侵入性方法来追踪N2B递送的情况下，临床应用一直具有挑战性。正电子发射断层扫描（PET）被用于测量在N2B递送后非人类灵长类动物从鼻内给药到脑摄取的F-18标记胰岛素（[F]FB-胰岛素）。

方法

[F]FB-胰岛素通过使A，B-二（叔丁氧羰基）胰岛素与[F]-琥珀酰亚胺基-4-氟苯甲酸酯反应制备。比较了三种[F]FB-胰岛素的N2B递送方法——通过管道以气雾剂形式递送（恒河猴，n = 2）、通过预先放置的导管以气雾剂形式递送（恒河猴，n = 3）以及通过预先放置的导管以溶液形式递送（食蟹猴，n = 3）。给药后，动态PET成像（120分钟）对鼻腔和全脑的递送效率进行了量化。计算了食蟹猴脑46个区域的时间-活性曲线下面积，以确定区域[F]FB-胰岛素水平。

结果

通过导管滴注[F]FB-胰岛素在递送至受试者方面优于气雾剂方法（注射剂量的39.89%，而通过管道的气雾剂为10.03%，通过导管的气雾剂为0.17%），随后递送至脑（注射剂量的0.34%，而通过管道的气雾剂为0.00020%，通过导管的气雾剂为0.05%）。[F]FB-胰岛素迅速穿过筛板转移至负责情绪和记忆处理的边缘和额颞区域。与全脑相比，[F]FB-胰岛素在胰岛素受体密度高的嗅神经投射部位半衰期更长。

讨论

基于导管的液体递送方法与PET成像相结合成功追踪了N2B [F]FB-胰岛素的去向，并且被认为广泛适用于其他治疗药物的评估。这种方法可以迅速应用于人类，以推进N2B胰岛素作为AD治疗药物的临床评估。

重点

PET检测到[F]FB-胰岛素穿过筛板。鼻内[F]FB-胰岛素在13分钟内到达脑。[F]FB-胰岛素活性在情绪和记忆处理区域最高。气雾剂递送比通过预先放置的导管进行液体滴注效率低。向筛板递送胰岛素对到达脑至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b4a/10925727/d96352dbff71/TRC2-10-e12459-g002.jpg

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胰岛素经鼻脑转运后在灵长类动物大脑中的分布。

Distribution of insulin in primate brain following nose-to-brain transport.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

HIGHLIGHTS FOR

引言

方法

结果

讨论

重点

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