Sperm selection for intracytoplasmic sperm injection (ICSI), based on standard morphology, can fail to select normal cells, and actual methods to evaluate their physiological status do not allow their later use for ICSI. Some authors have demonstrated that sperm selection based on high-magnification morphology is associated with a better ICSI outcome, above all in subjects with severe testicular failure. In this study there was an evaluation of mitochondrial function, chromatin structure and sperm aneuploidies on whole sperm samples from 30 subjects: 10 normozoospermic controls and 20 patients that were severely oligozoospermic due to testicular damage or partial obstruction of the seminal ducts. All severely oligozoospermic patients showed worse mitochondrial function and chromatin status, while sperm aneuploidies were significantly increased only in those subjects with severe testicular damage (P < 0.001). In the latter patients the analysis of a single spermatozoon, performed after morphological selection by high-magnification microscopy, showed significantly better mitochondrial function, chromatin status and aneuploidy rate than observed in unselected cells (all P < 0.001). Interestingly, these parameters were further improved when nuclear vacuoles were lacking. These results suggest a strong relationship between high-magnification morphology and the status of spermatozoa, and they may explain the better results of ICSI obtained using spermatozoa selected by high-magnification microscopy.
We report for the first time a possible association between mutations in dynein genes and isolated AZS. Male carriers of the mutations always exhibit AZS, whereas female carriers manifest no alterations in either fertility or pulmonary clearance.
Asthenozoospermia (AZS), characterized by grade A + B sperm motility (as in World Health Organization Guidelines) < or =50% or A <25% in fresh ejaculate, may exist as an isolated disorder, in combination with other sperm anomalies or as part of syndromic association. The majority of syndromic patients can be ascribed to mutations in dynein genes, while, to date, no genes have been described to be associated in humans with non-syndromic, isolated AZS. An interesting family of axonemal proteins, the tektins, has been recently identified in various mammals and they are thought to play a fundamental role in ciliary movement. Recently, the human tektin-t (or h-tekB1 or Tektin-2) gene has been cloned, showing specific expression in flagella of mature sperm. We report the screening of tektin-t gene in 90 isolated non-syndromic AZS patients. We found a heterozygous mutation (A229V) in one patient. Ultrastructural analysis showed anomalies in > or =80% of examined spermatozoa involving axoneme microtubules and mitochondria. Moreover, the viability and mitochondrial function of sperm were altered in the patient with the A229V mutation. This is the first description of human pathology linked to a tektin-family gene, since only murine models are available for these genes.
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