Rapid detection of mouse spermatogenic defects by testicular cellular composition analysis via enhanced deep learning model.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-10-07 DOI:10.1111/andr.13773

Nianfei Ao, Min Zang, Yue Lu, Yiping Jiao, Haoda Lu, Chengfei Cai, Xiangxue Wang, Xin Li, Minge Xie, Tingting Zhao, Jun Xu, Eugene Yujun Xu

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引用次数: 0

Abstract

Background: Histological analysis of the testicular sections is paramount in infertility research but tedious and often requires months of training and practice.

Objectives: Establish an expeditious histopathological analysis of mutant mice testicular sections stained with commonly available hematoxylin and eosin (H&E) via enhanced deep learning model MATERIALS AND METHODS: Automated segmentation and cellular composition analysis on the testes of six mouse reproductive mutants of key reproductive gene family, DAZ and PUMILIO gene family via H&E-stained mouse testicular sections.

Results: We improved the deep learning model with human interaction to achieve better pixel accuracy and reduced annotation time for histologists; revealed distinctive cell composition features consistent with previously published phenotypes for four mutants and novel spermatogenic defects in two newly generated mutants; established a fast spermatogenic defect detection protocol for quantitative and qualitative assessment of testicular defects within 2.5-3 h, requiring as few as 8 H&E-stained testis sections; uncovered novel defects in AcDKO and a meiotic arrest defect in HDBKO, supporting the synergistic interaction of Sertoli Pum1 and Pum2 as well as redundant meiotic function of Dazl and Boule.

Discussion: Our testicular compositional analysis not only could reveal spermatogenic defects from staged seminiferous tubules but also from unstaged seminiferous tubule sections.

Conclusion: Our SCSD-Net model offers a rapid protocol for detecting reproductive defects from H&E-stained testicular sections in as few as 3 h, providing both quantitative and qualitative assessments of spermatogenic defects. Our analysis uncovered evidence supporting the synergistic interaction of Sertoli PUM1 and PUM2 in maintaining average testis size, and redundant roles of DAZ family proteins DAZL and BOULE in meiosis.

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通过增强型深度学习模型进行睾丸细胞成分分析，快速检测小鼠精子生成缺陷。

背景：睾丸切片的组织学分析在不育症研究中至关重要，但却十分繁琐，往往需要数月的培训和练习：材料与方法：通过H&E染色的小鼠睾丸切片，对关键生殖基因家族、DAZ和PUMILIO基因家族的六种小鼠生殖突变体的睾丸进行自动分割和细胞组成分析：我们通过人机交互改进了深度学习模型，提高了像素的准确性，减少了组织学专家的标注时间；揭示了4个突变体与之前发表的表型一致的独特细胞组成特征，以及2个新产生突变体的新型生精缺陷；建立了快速生精缺陷检测方案，可在2.5-3 h内定量和定性评估睾丸缺陷。5-3小时内对睾丸缺陷进行定量和定性评估；发现了AcDKO的新缺陷和HDBKO的减数分裂停滞缺陷，支持Sertoli Pum1和Pum2的协同作用以及Dazl和Boule的冗余减数分裂功能：讨论：我们的睾丸成分分析不仅能从已分期的曲细精管中发现生精缺陷，还能从未分期的曲细精管切片中发现生精缺陷：我们的SCSD-Net模型提供了一种快速方案，可在短短3小时内从H&E染色的睾丸切片中检测生殖缺陷，对生精缺陷进行定量和定性评估。我们的分析发现，有证据支持Sertoli PUM1和PUM2在维持睾丸平均大小方面的协同作用，以及DAZ家族蛋白DAZL和BOULE在减数分裂过程中的冗余作用。

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

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567