Polycationic macromolecules inhibit cilia-mediated ovum transport in the rabbit oviduct.

Abstract: In both in vitro and in vivo experiments, polycationic macromolecules, such as poly(L-lysine), inhibited the transport of either surrogate or freshly ovulated cumulus masses across the oviduct epithelial surface without affecting the ciliary beat. Whereas transport across the fimbria in vivo was completely inhibited, transport down the ampulla was 3 to 7 times slower than normal. The effects of these polycations suggest that cilia-mediated ovum transport may involve the formation of transient adhesive bonds be… Show more

“…While these studies have resulted in the speculation that the reduced number of oocytes in the oviducts is due to the lower ovulation rate, inefficient fimbrial pickup cannot be excluded (Mahi-Brown and Yanagimachi, 1983). In fact, polycationic macromolecules, such as poly-L-lysine have been shown to inhibit COC transport along the fallopian tube (Norwood et al, 1978), suggesting that the negatively charged hyaluronan-rich COC matrix may play an important role in this process. The lack of the hyaluronan-rich COC matrix (such as in Tnfip6 -/-mice) could result in less efficient pickup of the nude oocytes by the ciliary structures of the fimbria.…”

Impaired cumulus mucification and female sterility in tumor necrosis factor-induced protein-6 deficient mice

“…While these studies have resulted in the speculation that the reduced number of oocytes in the oviducts is due to the lower ovulation rate, inefficient fimbrial pickup cannot be excluded (Mahi-Brown and Yanagimachi, 1983). In fact, polycationic macromolecules, such as poly-L-lysine have been shown to inhibit COC transport along the fallopian tube (Norwood et al, 1978), suggesting that the negatively charged hyaluronan-rich COC matrix may play an important role in this process. The lack of the hyaluronan-rich COC matrix (such as in Tnfip6 -/-mice) could result in less efficient pickup of the nude oocytes by the ciliary structures of the fimbria.…”

Impaired cumulus mucification and female sterility in tumor necrosis factor-induced protein-6 deficient mice

“…A prominent example is the transport of oosperm from ovary to uterus through the fallopian tube during pregnancy. While it is clear that the transport of oosperm involves smooth muscle contraction [1,2], the detailed mechanism still remains elusive [1][2][3][4][5][6][7], due in part to the complexity of cellsubstrate interactions via receptor-ligand binding as well as various physical forces inside and outside of the cytoskeleton [8][9][10][11][12]. Cells are known to respond to mechanical forces exerted through surrounding fluid, adhering beads or substrates [9,[12][13][14], and they could detach, slip or roll on a substrate in response to these forces [15][16][17][18][19][20][21][22].…”

Biomimetic study of rolling transport through smooth muscle contraction

“…Sialoglycoconjugates are a usual constituent of the oviductal cilia glycocalyx because they have been detected in the oviduct of human [81], hare [82], rat [83], rabbit [76], monkey [84], equine [38], and dromedary [39]. The presence of negative charge on the oviductal cilia is considered the basis of the electrostatic interaction between cilia and oocyte-cumulus cell complexes as well as of the oocyte pickup and transport [85,86]. Sialic acid residues could keep the cilia separated from one another, maintain ciliary motility [87] and provide the progression of capacitated spermatozoa [88].…”

Modifications of carbohydrate residues in the sheep oviductal ampulla after superovulation