Variance in Total Levels of Phospholipase C Zeta (PLC-ζ) in Human Sperm May Limit the Applicability of Quantitative Immunofluorescent Analysis As a Diagnostic Indicator of Oocyte Activation Capability

Overview

Journal Fertil Steril

Specialty Reproductive Medicine

Date 2012 Oct 9

PMID 23040527

Citations 35

Authors

Junaid Kashir

Celine Jones

Ginny Mounce

Walaa M Ramadan

Bernadette Lemmon

Bjorn Heindryckx

Petra De Sutter

John Parrington

Karen Turner

Tim Child

Enda McVeigh

Kevin Coward

Affiliations

Soon will be listed here.

Abstract

Objective: To examine whether similar levels of phospholipase C zeta (PLC-ζ) protein are present in sperm from men whose ejaculates resulted in normal oocyte activation, and to examine whether a predominant pattern of PLC-ζ localization is linked to normal oocyte activation ability.

Design: Laboratory study.

Setting: University laboratory.

Patient(s): Control subjects (men with proven oocyte activation capacity; n = 16) and men whose sperm resulted in recurrent intracytoplasmic sperm injection failure (oocyte activation deficient [OAD]; n = 5).

Intervention(s): Quantitative immunofluorescent analysis of PLC-ζ protein in human sperm.

Main Outcome Measure(s): Total levels of PLC-ζ fluorescence, proportions of sperm exhibiting PLC-ζ immunoreactivity, and proportions of PLC-ζ localization patterns in sperm from control and OAD men.

Result(s): Sperm from control subjects presented a significantly higher proportion of sperm exhibiting PLC-ζ immunofluorescence compared with infertile men diagnosed with OAD (82.6% and 27.4%, respectively). Total levels of PLC-ζ in sperm from individual control and OAD patients exhibited significant variance, with sperm from 10 out of 16 (62.5%) exhibiting levels similar to OAD samples. Predominant PLC-ζ localization patterns varied between control and OAD samples with no predictable or consistent pattern.

Conclusion(s): The results indicate that sperm from control men exhibited significant variance in total levels of PLC-ζ protein, as well as significant variance in the predominant localization pattern. Such variance may hinder the diagnostic application of quantitative PLC-ζ immunofluorescent analysis.

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