Goal-directed attention transforms both working and long-term memory representations in the human parietal cortex.

IF 9.8 1区生物学 Q1 Agricultural and Biological Sciences

PLoS Biology Pub Date : 2024-07-15 eCollection Date: 2024-07-01 DOI:10.1371/journal.pbio.3002721

Huinan Hu, Anqi Li, Liang Zhang, Chuqi Liu, Liang Shi, Xiaojing Peng, Tong Li, Yu Zhou, Gui Xue

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Abstract

The abundance of distractors in the world poses a major challenge to our brain's limited processing capacity, but little is known about how selective attention modulates stimulus representations in the brain to reduce interference and support durable target memory. Here, we collected functional magnetic resonance imaging (fMRI) data in a selective attention task in which target and distractor pictures of different visual categories were simultaneously presented. Participants were asked to selectively process the target according to the effective cue, either before the encoding period (i.e., perceptual attention) or the maintenance period (i.e., reflective attention). On the next day, participants were asked to perform a memory recognition task in the scanner in which the targets, distractors, and novel items were presented in a pseudorandom order. Behavioral results showed that perceptual attention was better at enhancing target memory and reducing distractor memory than reflective attention, although the overall memory capacity (memory for both target and distractor) was comparable. Using multiple-voxel pattern analysis of the neural data, we found more robust target representation and weaker distractor representation in working memory for perceptual attention than for reflective attention. Interestingly, perceptual attention partially shifted the regions involved in maintaining the target representation from the visual cortex to the parietal cortex. Furthermore, the targets and distractors simultaneously presented in the perceptual attention condition showed reduced pattern similarity in the parietal cortex during retrieval compared to items not presented together. This neural pattern repulsion positively correlated with individuals' recognition of both targets and distractors. These results emphasize the critical role of selective attention in transforming memory representations to reduce interference and improve long-term memory performance.

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目标定向注意改变了人类顶叶皮层的工作记忆和长期记忆表征。

世界上大量的干扰物对我们大脑有限的处理能力构成了巨大挑战，但人们对选择性注意如何调节大脑中的刺激表征以减少干扰并支持持久的目标记忆却知之甚少。在这里，我们收集了一项选择性注意任务中的功能性磁共振成像（fMRI）数据，在这项任务中，不同视觉类别的目标图片和干扰图片同时呈现。参与者被要求在编码期（即知觉注意）或维持期（即反射注意）前根据有效线索选择性地处理目标。第二天，受试者被要求在扫描仪中执行记忆识别任务，在该任务中，目标、干扰项和新项目以假随机顺序呈现。行为结果表明，知觉注意比反射注意更能增强目标记忆和减少分心记忆，尽管总体记忆容量（对目标和分心的记忆）不相上下。通过对神经数据进行多象素模式分析，我们发现知觉注意比反射注意在工作记忆中的目标表征更强，而分心表征更弱。有趣的是，知觉注意部分地将参与维持目标表征的区域从视觉皮层转移到了顶叶皮层。此外，与不同时出现的项目相比，在知觉注意条件下同时出现的目标和干扰项在检索过程中在顶叶皮层显示出较低的模式相似性。这种神经模式排斥与个体对目标和干扰物的识别能力呈正相关。这些结果强调了选择性注意在转换记忆表征以减少干扰和提高长期记忆表现方面的关键作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-BIOLOGY

CiteScore

15.40

自引率

2.00%

发文量

359

审稿时长

3-8 weeks

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