Abstract
Study question
How can we make the human sperm connecting piece accessible for structural analysis by cryo-electron tomography (cryo-ET)?
Summary answer
Preparation of sperm by chemical thinning or production of lamellae via cryo-focused ion beam (cryo-FIB) milling allows direct imaging of the human sperm connecting piece.
What is known already
Previous studies from our group and others have demonstrated the versatility of cryo-ET to advance our understanding of sperm biology. Structures of macromolecular complexes have been resolved in vitro and in situ, enabling a functional assessment at molecular or even atomic level. Resolving structures at high resolution further allowed identification of proteins previously not known to have a role in mediating male fertility. Such insights are instrumental to further improve diagnosis and treatment of male infertility.
Study design, size, duration
In our research study we use sperm samples from patients undergoing IVF treatment or donor material, which we receive through an ongoing collaboration with the Division of Woman and Baby, University Medical Centre Utrecht (UMCU). These samples are processed in our own laboratory and subsequently imaged by cryo-ET at the Electron Microscopy Centre of Utrecht University.
Participants/materials, setting, methods
Due to its thickness, the connecting piece cannot be directly analyzed by cryo-ET. Thus, we designed two strategies to achieve thinning of this area and allow collection of tomograms for structural analysis. While the first approach involves incubation of sperm with a detergent, a reducing agent and heparin, the second approach utilizes cryo-FIB milling to produce thin lamellae of the connecting piece.
Main results and the role of chance
Both strategies developed to access the connecting piece with cryo-ET are effective and allowed us a glimpse of the molecular landscape of the link between sperm head and tail. Chemical thinning of the connecting piece enabled imaging of the proximal and distal centriole while still embedded in the segmented columns or outer dense fibers, respectively. Furthermore, electron density within the microtubules of both centrioles indicates that they are decorated by microtubule inner proteins. Data obtained from lamellae produced by cryo-FIB milling complements these findings, displaying regular densities along the microtubules extending from the proximal centriole. Analyzing tomograms collected from cryo-FIB lamellae we further found a regular protein density that appears to be connecting the nuclear envelope to the base plate. Moreover, cryo-ET of lamellae allowed a detailed view of nuclear pore complexes and the postacrosomal sheath in their native environment.
Limitations, reasons for caution
Altering the native state of the sperm cell by chemical preparation is a limitation of this approach. Cryo-FIB milling retains the native state of the cell but is limited in throughput. To improve our cryo-FIB milling approach, we will implement automated milling procedures.
Wider implications of the findings
Chemical preparation and cryo-FIB milling of sperm enable the in-depth analysis of the connecting piece by cryo-ET. These strategies can now be applied to provide structural details at the molecular level and thus advance our understanding of male infertility related to defects of the head-tail junction.
How can we make the human sperm connecting piece accessible for structural analysis by cryo-electron tomography (cryo-ET)?
Summary answer
Preparation of sperm by chemical thinning or production of lamellae via cryo-focused ion beam (cryo-FIB) milling allows direct imaging of the human sperm connecting piece.
What is known already
Previous studies from our group and others have demonstrated the versatility of cryo-ET to advance our understanding of sperm biology. Structures of macromolecular complexes have been resolved in vitro and in situ, enabling a functional assessment at molecular or even atomic level. Resolving structures at high resolution further allowed identification of proteins previously not known to have a role in mediating male fertility. Such insights are instrumental to further improve diagnosis and treatment of male infertility.
Study design, size, duration
In our research study we use sperm samples from patients undergoing IVF treatment or donor material, which we receive through an ongoing collaboration with the Division of Woman and Baby, University Medical Centre Utrecht (UMCU). These samples are processed in our own laboratory and subsequently imaged by cryo-ET at the Electron Microscopy Centre of Utrecht University.
Participants/materials, setting, methods
Due to its thickness, the connecting piece cannot be directly analyzed by cryo-ET. Thus, we designed two strategies to achieve thinning of this area and allow collection of tomograms for structural analysis. While the first approach involves incubation of sperm with a detergent, a reducing agent and heparin, the second approach utilizes cryo-FIB milling to produce thin lamellae of the connecting piece.
Main results and the role of chance
Both strategies developed to access the connecting piece with cryo-ET are effective and allowed us a glimpse of the molecular landscape of the link between sperm head and tail. Chemical thinning of the connecting piece enabled imaging of the proximal and distal centriole while still embedded in the segmented columns or outer dense fibers, respectively. Furthermore, electron density within the microtubules of both centrioles indicates that they are decorated by microtubule inner proteins. Data obtained from lamellae produced by cryo-FIB milling complements these findings, displaying regular densities along the microtubules extending from the proximal centriole. Analyzing tomograms collected from cryo-FIB lamellae we further found a regular protein density that appears to be connecting the nuclear envelope to the base plate. Moreover, cryo-ET of lamellae allowed a detailed view of nuclear pore complexes and the postacrosomal sheath in their native environment.
Limitations, reasons for caution
Altering the native state of the sperm cell by chemical preparation is a limitation of this approach. Cryo-FIB milling retains the native state of the cell but is limited in throughput. To improve our cryo-FIB milling approach, we will implement automated milling procedures.
Wider implications of the findings
Chemical preparation and cryo-FIB milling of sperm enable the in-depth analysis of the connecting piece by cryo-ET. These strategies can now be applied to provide structural details at the molecular level and thus advance our understanding of male infertility related to defects of the head-tail junction.
Original language | English |
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Article number | deae108.469 |
Pages (from-to) | I235-I235 |
Number of pages | 1 |
Journal | Human Reproduction |
Volume | 39 |
Issue number | Supplement_1 |
DOIs | |
Publication status | Published - 3 Jul 2024 |
Event | 40th Hybrid Annual Meeting of the European-Society-of-Human-Reproduction-and-Embryology - Amsterdam, Netherlands Duration: 7 Jul 2024 → 10 Jul 2024 |