Genetic counseling is imperative for the success of newborn screening for CF and other congenital diseases. With the completion of the Human Genome Project, more molecular screening for childhood disease is bound to enter the clinical arena. Based on our findings, efforts must be made to ensure that newborn screening programs have the means and the methods to communicate newborn screening results effectively to families. In addition, both the general public and community health providers must be better informed of the implications of all newborn screening results. Additional research is needed to determine whether there are communication styles and approaches that are better suited to counseling parents regarding newborn screening results.
The disassembly and reorganization of sperm-derived structures are landmarks for the onset of embryonic development. Since complete information on these events is not yet available, we examined the disassembly of the sperm axoneme, the formation of the sperm aster, and the decondensation and development of the male and female pronuclei in inseminated Rhesus monkey oocytes conceived by in-vitro fertilization (IVF) or by intracytoplasmic sperm injection. During IVF, the spermatozoa lose their acrosomes after contacting the zona pellucida, and the plasma membrane and nuclear envelope disappear after fusion with the oolemma. Subsequently, a sperm aster of microtubules forms around the proximal centriole, which is bound to the sperm connecting piece. This process is then followed by the formation of both pronuclei, which single sperm centriole later duplicates and the bipolar mitotic apparatus is observed. Following sperm injection, the spermatozoa have both an intact plasma membrane and acrosome. Although the microtubules form the sperm aster in a fashion identical to that seen during IVF, the presence of an intact acrosome appears to be associated with a heterogeneity in the decondensation of sperm chromatin. While this may indicate an abnormal pattern of chromatin decondensation during the formation of the male pronucleus following sperm injection, the male pronucleus eventually fully decondenses, as during IVF. Sperm mitochondria are displaced as the sperm centriole is exposed. Annulate lamellae and a previously undescribed organelle which seems to contain annulate lamellae precursors, as well as maternal mitochondria, are found in association with the developing pronuclear envelopes. This information increases understanding of fertilization in primates, and may also be of significance for use in assisted human reproduction as well as in the preservation of endangered mammalian species. In addition, these results demonstrates the similarities between fertilization in Rhesus monkeys and humans, providing additional evidence for the use of this non-human primate as a model system in which to investigate the cellular and molecular biological basis of human reproduction.
Intracytoplasmic sperm injection (ICSI) was performed on rhesus monkey oocytes, and the resultant microtubule and DNA configurations were imaged by laser-scanning confocal microscopy. In addition, polyspermic oocytes fertilized by ICSI were examined by transmission electron microscopy (TEM). Successful rhesus fertilization by ICSI revealed microtubule and DNA configurations similar to those observed during in vitro fertilization of human and rhesus monkey oocytes, including sperm aster formation, pronuclei decondensation, spindle formation, and cell division. Several abnormalities, however, were also observed: 1) inability to complete meiosis; 2) inability to undergo male or female pronucleus formation; 3) separation of the sperm tail from the sperm nucleus; 4) premature chromosome condensation with the formation of a paternal meiotic spindle; and 5) formation of multiple female pronuclei (karyomeres) during chromosome decondensation. TEM analysis revealed that sperm can undergo decondensation in the presence of an intact acrosome at least 18 h after sperm injection. These results demonstrate the utility of rhesus ICSI in pre-clinical applications as well as with endangered species. However, the different types of fertilization failures observed here indicate that although ICSI may be a readily accepted means of fertilization of human oocytes in many clinics, we should further characterize the cellular and genetic abnormalities associated with ICSI in both human and nonhuman primates.
The cytoskeletal components of hamster oocytes, zygotes, and spontaneously activated parthogenotes were examined after immunocytochemical labeling. Microtubules were found only in the anastral, tangentially arranged second meiotic spindle of unfertilized oocytes. Taxol treatment of unfertilized oocytes greatly augmented astral microtubules in both the metaphase II spindle and the cortex. Disruption of the meiotic spindle microtubules with nocodazole resulted in cortical chromosomal scattering. During hamster sperm incorporation and pronuclear formation, no sperm aster was detected in association with the male DNA. Instead, a large overlapping array of microtubules assembled in the cortex. By mitosis, this interphase array disassembled and an anastral metaphase spindle formed. Microtubule and chromatin configurations were also imaged in hamster oocytes injected with human sperm. Astral microtubules were absent from the sperm centrosome. The implications of these results are discussed in relation to the hamster oocyte penetration assay, a test commonly used by in vitro fertilization clinics to demonstrate the fertilizing ability of human sperm. We conclude that since hamsters and humans follow different methods of centrosome inheritance, maternal and paternal, respectively, the hamster may be an inappropriate model for exploring microtubule and centrosomal defects in humans or for assaying postinsemination forms of human male fertility defects.
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