Cytoskeletal Aspects of Assisted Fertilization

L. Hewitson; D. Phil; C. Simerly; G. Schatten

doi:10.1055/s-2000-12554

Seminars in Reproductive Medicine, Table of Contents

Semin Reprod Med 2000; 18(2): 151-160
DOI: 10.1055/s-2000-12554

Cytoskeletal Aspects of Assisted Fertilization

L. Hewitson, D. Phil^1,3 , C. Simerly^1,3 , G. Schatten^1,2,3

¹Department of Obstetrics & Gynecology, Oregon Health Sciences University, Portland, Oregon
²Department of Cell and Development Biology, Oregon Health Sciences University, Portland, Oregon and
³Division of Reproductive Sciences, Oregon Regional Primate Research Center, Beaverton, Oregon

Abstract

ABSTRACT

During mammalian fertilization, the zygotic centrosome organizes a large sperm aster, critical for uniting the male and female pronuclei prior to first mitosis. Fluorescent imaging of inseminated human oocytes has shown that centrosomal defects may result in abnormal microtubule nucleation preventing genomic union, suggesting a novel cause of fertilization failure. Working with rhesus monkey gametes, we have developed a preclinical model for understanding the cell biological basis of intracytoplasmic sperm injection (ICSI). Typically, ICSI results in abnormal nuclear remodeling during sperm decondensation due to the presence of the sperm acrosome and perinuclear theca, structures normally removed at the oolemma during IVF; this is turn causes a delay in the onset of DNA synthesis. These unusual modifications raise concerns that the ICSI procedure itself may result in chromatin damage during DNA decondensation and further highlight the need for a more rigorous assessment of methods of assisted reproduction prior to their global application.

KEYWORD

fertilization - intracytoplasmic sperm injection

Full Text

References

REFERENCES

1 Schatten G. The centrosome and its mode of inheritance: the reduction of the centrosome during gametogenesis and its restoration during fertilization. Dev Biol . 1994; 165 299-335
2 Simerly C, Wu G, Zoran S. The paternal inheritance of the centrosome, the cell's microtubule-organizing center, in humans and the implications for infertility. Nat Med . 1995; 1 47-53
3 Wu G, Simerly C, Zoran S, Funte L R, Schatten G. Microtubule and chromatin configurations during fertilization and early development in rhesus monkeys, and regulation by intracellular calcium ions. Biol Reprod . 1996; 55 269-271
4 Navara C S, First N L, Schatten G. Microtubule organization in the cow during fertilization, polyspermy, parthenogenesis, and nuclear transfer: the role of the sperm aster. Dev Biol . 1994; 162 29-40
5 Schatten G, Simerly C, Schatten H. Microtubule configurations during fertilization, mitosis, and early development in the mouse and the requirement for egg microtubule-mediated motility during mammalian fertilization. Proc Natl Acad Sci U S A . 1985; 82 4152-4156
6 Hewitson L, Haavisto A, Simerly C, Jones J, Schatten G. Microtubule organization and chromatin configurations in hamster oocytes during fertilization and parthenogenetic activation, and after insemination with human sperm. Biol Reprod . 1997; 57 967-975
7 Palermo G, Joris H, Devroey P, Van Steirteghem A. Pregnancies after intracytoplasmic sperm injection of single spermatozoon into an oocyte. Lancet . 1992; 340 17-18
8 Van Steirteghem C A, Nagy Z, Joris H. High fertilization and implantation rates after intracytoplasmic sperm injection. Hum Reprod . 1993; 8 1061-1066
9 Bourne H, Richings N, Liu D Y, Clarke G N, Harari O, Baker H W. The use of intracytoplasmic sperm injection for the treatment of severe and extreme male infertility. Reprod Fertil Dev . 1995; 7 237-245
10 Goldstein M, Menendez S, Zaninovic N, Veeck L L, Rosenwaks Z. Testicular sperm extraction with intracytoplasmic sperm injection for nonobstructive azoospermia. Urology . 1997; 49 435-440
11 von Zumbusch A, Fiedler K, Mayerhofer A, Jessberger B, Ring J, Vogt H J. Birth of healthy children after intracytoplasmic sperm injection in two couples with male Kartagener's syndrome. Fertil Steril . 1998; 70 643-646
12 Liu J, Nagy Z, Joris H, Tournaye H, Devroey P, Van Steirteghem A. Successful fertilization and establishment of pregnancies after intracytoplasmic sperm injection in patients with globozoospermia. Hum Reprod . 1995; 10 626-629
13 Nagy Z P, Liu J, Joris H. The result of intracytoplasmic sperm injection is not related to any of the three basic sperm parameters. Hum Reprod . 1995; 10 1123-1129
14 Tournaye H, Liu J, Nagy Z. Correlation between testicular histology and outcome after intracytoplasmic sperm injection using testicular spermatozoa. Hum Reprod . 1996; 11 127-132
15 In't Velt P, Brandenburg H, Verhoeff A, Dhont M, Los F. Sex chromosomal abnormalities and intracytoplasmic sperm injection. Lancet . 1995; 773 346
16 Silber S J, Nagy Z, Liu J. The use of epididymal and testicular spermatozoa for intracytoplasmic sperm injection: the genetic implications for male infertility. Hum Reprod . 1995; 10 2031-2043
17 Kent-First M G, Kol S, Muallem A. The incidence and possible relevance of Y-linked microdeletions in babies born after intracytoplasmic sperm injection and their infertile fathers. Mol Hum Reprod . 1996; 2 943-950
18 Vogt P. Genetic aspects of artificial fertilization. Hum Reprod . 1995; 10 128-137
19 Mulhall J P, Reijo R, Alagappan R. Azoospermic men with deletion of the DAZ gene cluster are capable of completing spermatogenesis: fertilization, normal embryonic development and pregnancy occur when retrieved testicular spermatozoa are used for intracytoplasmic sperm injection. Hum Reprod . 1997; 12 503-508
20 Patrizio P. Intracytoplasmic sperm injection (ICSI): potential genetic concerns. Hum Reprod . 1995; 10 2520-2523
21 Cummins J M. Controversies in science: ICSI may foster birth defects. J NIH Res . 1997; 9 36-40
22 Schatten G, Hewitson L, Simerly C, Huszar G. Cell and molecular biological challenges of ICSI: A.R.T. before science?. J Law Med Ethics . 1998; 26 29-37
23 Bonduelle M, Joris H, Hofmans K, Liebaers I, Van Steirteghem A. Mental development of 201 ICSI children at 2 years of age. Lancet . 1998; 351 1553
24 Bonduelle M, Aytoz A, Van Assche E, Devroey P, Liebaers I, Van Steirteghem A. Incidence of chromosomal aberrations in children born after assisted reproduction through intracytoplasmic sperm injection. Hum Reprod . 1998; 13 781-782
25 Asch R, Simerly C, Ord T, Ord V A, Schatten G. The stages at which human fertilization arrests: microtubule and chromosome configurations in inseminated oocytes which fail to complete fertilization and development in humans. Hum Reprod . 1995; 10 1897-1906
26 Terada Y, Simerly C, Hewitson L, Schatten G. Sperm aster formation and pronuclear decondensation during rabbit fertilization and development of a functional assay for human sperm. Biol Reprod . 2000; 62 557-563
27 Hewitson L, Simerly C, Tengowski M W. Microtubule and chromatin configurations during rhesus intracytoplasmic sperm injection: successes and failures. Biol Reprod . 1996; 55 271-280
28 Sutovsky P, Hewitson L, Simerly C. Intracytoplasmic sperm injection for rhesus monkey fertilization results in unusual chromatin, cytoskeletal and membrane events, but eventually leads to pronuclear development and sperm aster assembly. Hum Reprod . 1996; 11 1703-1712
29 Compton D A, Cleveland D W. NuMA, a nuclear protein involved in mitosis and nuclear reformation. Curr Opin Cell Biol . 1994; 6 343-346
30 Hewitson L, Dominko T, Takahashi D. Unique checkpoints during the first cell cycle of fertilization after intracytoplasmic sperm injection in rhesus monkeys. Nat Med . 1999; 5 431-433
31 Conner S, Leaf D, Wessel G. Members of the SNARE hypothesis are associated with cortical granule exocytosis in the sea urchin egg. Mol Reprod Dev . 1997; 48 106-118
32 Ramalho-Santos J, Moreno R D, Sutovsky P. SNAREs in mammalian sperm: possible implications for fertilization. Dev Biol . 2000; 223 54-69
33 Sutovsky P, Oko R, Hewitson L, Schatten G. Binding of oocyte microvilli to the perinuclear theca of fertilizing sperm and subsequent theca removal constitute a previously unrecognized step in mammalian fertilization. Dev Biol . 1997; 188 75-84
34 Luetjens M, Payne C, Schatten G. Non-random chromosome positioning in human sperm and sex chromosome anomalies following intracytoplasmic sperm injection. Lancet . 1999; 353 1240
35 Silva C P, Kommineni K, Oldenbourg R, Keefe D L. The first polar body does not predict accurately the location of the metaphase II meiotic spindle in mammalian oocytes. Fertil Steril . 1999; 71 719-721
36 Chan A WS, Luetjens C M, Dominko T. TransgenICSI: foreign DNA transmission by intracytoplasmic sperm injection: injection of sperm bound with exogenous DNA results in embryonic GFP expression and live rhesus births. Mol Hum Reprod . 1999; 6 26-33