Diminishing oocyte quality with advancing age is associated with deficiency of nitric oxide synthase cofactors, tetrahydrobiopterin, and zinc, in mouse oocytes

Objective

To study the implications of decreased zinc and tetrahydrobiopterin (H₄B) associated with chronological aging on oocyte quality using a mouse model. H₄B and zinc are essential cofactors for nitric oxide synthase (NOS), because they aid in electron transfer and dimeric stability, and their bioavailability is crucial in regulating NOS coupling. We have previously shown that sufficient levels of nitric oxide (NO) are essential for maintaining oocyte quality and activation, and NO levels decrease in the oocyte as a function of age. Thus, it is plausible that zinc and H₄B may decrease as a function of age, resulting in NOS dysfunction with subsequent depletion of NO. Additionally, increased production of reactive oxygen species from the monomeric form can further disrupt oocyte quality and NO bioavailability.

Design

Experimental laboratory study.

Setting

Laboratory.

Animals

B6D2F1 mice.

Intervention(s)

Sibling oocytes were retrieved from super-ovulated B6D2F1 mice from 3 age groups: 8–14 weeks (young breeders [YBs]), 48–52 weeks (retired breeders [RBs]), and 80–84 weeks (old animals [OAs]).

Main Outcome Measure(s)

Oocytes were scored for ooplasmic/spindle microtubule (MT) morphology, chromosomal alignment, and cortical granule (CG) intactness using immunofluorescence and confocal microscopy with 3 dimension image reconstruction and subjected to an high-performance liquid chromatography assay to measure the concentrations of H₄B and its metabolites, as well as the zinc measurement using atomic absorption spectrophotometry.

Result(s)

Oocyte scoring showed a reduction in “good” quality oocyte percentage as age increases, with YB having the highest percentage of quality oocytes followed by RB and OA. The high-performance liquid chromatography analysis showed a significant progressive decrease in total H₄B in RB and OA (0.00098 picogram (pg)/oocyte and 0.00069 pg/oocyte, respectively) compared with YB (0.00125 pg/oocyte). Atomic absorbance spectrophotometry revealed a significant progressive decrease in zinc concentration in RB and OA compared with YB (8.45 pg/oocyte and 5.82 pg/oocyte vs. 10.05 pg/oocyte, respectively).

Conclusion(s)

Age-related diminution in oocyte quality is paralleled by a decline in the levels of H₄B and zinc. The resultant deficiency in the oocytes can lead to the inability of NOS to maintain dimerization. Consequent uncoupling of NOS generates superoxide instead of NO, which participates in a multitude of reactions contributing to oxidative stress. Therefore, dysfunction of NOS secondary to zinc and H₄B loss is a major mechanism involved in reactive oxygen species generation and oocyte quality deterioration related to the chronological age.