Are sperm capacitation and apoptosis the opposite ends of a continuum driven by oxidative stress?

Abstract

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This chapter explores the possibility that capacitation and apoptosis are linked processes joined by their common dependence on the continued generation of reactive oxygen species (ROS). According to this model capacitation is initiated in spematozoa following their release into the female reproductive tract as a consequence of intracellular ROS generation, which stimulates intracellular cAMP generation, inhibits tyrosine phosphatase activity and enhances the formation of oxysterols prior to their removal from the sperm surface by albumin. The continued generation of ROS by capacitating populations of spermatozoa eventually overwhelms the limited capacity of these cells to protect themselves from oxidative stress. As a result the over-capacitation of spermatozoa leads to a state of senescence and the activation of a truncated intrinsic apoptotic cascade characterized by enhanced mitochondrial ROS generation, lipid peroxidation, motility loss, caspase activation and phosphatidylserine externalization. The latter may be particularly important in instructing phagocytic leukocytes that the removal of senescent, moribund spermatozoa should be a silent process unaccompanied by the generation of proinflammatory cytokines. These observations reveal the central role played by redox chemistry in defining the life and death of spermatozoa. A knowledge of these mechanisms may help us to engineer novel solutions to both support and preserve the functionality of these highly specialized cells.

Keywords

• gene regulation
• Musashi
• Musashi-1
• Musashi-2
• posttranscriptional control
• RNA binding proteins
• spermatogenesis
• splicing
• testis
• translation
• cell fate
• cell stress
• importin
• karyopherin
• nucleocytoplasmic transport
• spermatid
• spermatocyte
• spermatogenesis
• artificial insemination
• biomarker
• fertility
• fertilization
• flow cytometry
• infertility
• nanotechnology
• oocyte activation
• Postacrosomal Sheath WWI Domain Binding Protein
• sperm
• SPTRX3
• thioredoxin
• ubiquitin
• ATP binding cassette transporters
• albumin
• high-density lipoprotein
• lipid rafts
• membrane fluidity
• membrane microdomains
• membrane packing
• oxysterols
• reverse cholesterol transport
• sterol transporters
• egg
• fertilization
• heat shock protein A2
• molecular chaperone
• sperm
• sperm-egg interactions
• dehydrogenases
• oxidases
• peroxiredoxins
• reactive oxygen species
• spermatozoa
• thiols
• thioredoxins
• antigen-presenting cells
• autoimmunity
• dendritic cells
• epididymis
• macrophages
• peripheral tolerance
• sperm maturation
• spermatozoa
• genomics
• male infertility
• proteomics
• sperm chromatin
• sperm epigenetics
• sperm DNA damage
• paternal genome
• offspring
• infertility
• chemotaxis
• rheotaxis
• sperm behavior
• sperm motility
• thermotaxis
• apoptosis
• reactive oxygen species
• sperm capacitation