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  • Mitochondrial distribution patterns in canine oocytes as related to the reproductive cycle stage.

Mitochondrial distribution patterns in canine oocytes as related to the reproductive cycle stage.

Animal reproduction science (2009-04-18)
Luisa Valentini, Alina Iulia Iorga, Teresa De Santis, Barbara Ambruosi, Karine Reynaud, Sylvie Chastant-Maillard, Antonio Ciro Guaricci, Michele Caira, Maria Elena Dell'Aquila
ABSTRACT

This study investigates the mitochondrial (mt) distribution in canine ovarian oocytes examined at recovery time, as related to the reproductive cycle stage, and in oviductal oocytes. Ovarian Germinal Vesicle (GV) stage oocytes were recovered from bitches in anestrous (A, n=2), follicular phase (F, n=4), ovulation (O, n=2), early luteal (EL, n=7) and mid/late luteal phase (MLL, n=2). Oviductal GV, metaphase I (MI) or MII stage oocytes were recovered from six bitches between 56 and 110 h after ovulation. Mitochondria were revealed by using MitoTracker Orange CMTM Ros and confocal microscopy. In ovarian oocytes, three mt distribution patterns were found: (I) small aggregates diffused throughout the cytoplasm; (II) diffused tubular networks; (III) pericortical tubular networks. Significantly higher rates of oocytes showing heterogeneous mt patterns (II+III) were obtained from bitches in F (75%) and in O (96%) compared with bitches in A (31%; F vs. A: P<0.05; O vs. A: P<0.001), in EL (61%; O vs. EL: P<0.01), or in MLL (0%; F vs. MLL: P<0.05; O vs. MLL: P<0.001). Fluorescence intensity did not vary according to mt distribution pattern except that it was lower in oocytes recovered in EL phase and showing small mt aggregations (P<0.001). The majority of ovulated MII stage oocytes (79%) showed diffused tubular mt network. We conclude that mt distribution pattern of canine ovarian immature oocytes changes in relation to reproductive cycle stage and that patterns observed in oocytes recovered from bitches in periovulatory phases are heterogeneous and similar to those of in vivo matured oocytes.

MATERIALS
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Product Description

Sigma-Aldrich
bisBenzimide H 33258, powder, BioReagent, suitable for cell culture, ≥98% (HPLC and TLC)