Total fertilization failure (TFF), which refers to fertilization failure in all mature oocytes, accounting for 5%-10% of in vitro fertilization (IVF) cycles and 1%-3% of intracytoplasmic sperm injection (ICSI) cycles in human. In this study, we recruited three unrelated primary infertile men with repeated cycles of TFF and performed whole-exome sequencing to identify the potential pathogenic variants. We identified homozygous or compound-heterozygous variants of paternal-effect genes ACTL7A and PLCZ1 that followed a Mendelian recessive inheritance pattern. Novel homozygous nonsense variant in ACTL7A [c.C146G: p.S49*] was identified in case 1, who came from a consanguineous family. Ultrastructural observation of ACTL7A-mutated spermatozoa by transmission electron microscopy (TEM) indicated that apparent increased thickness of perinuclear matrix and the acrosome was detached from the nuclear envelop. Besides, two novel compound-heterozygous variants in PLCZ1 were identified in case 2 [c.1174+3A>C:p.?; c.A1274G:p.N425S] and case 3 [c.136-1G>C:p.?; c.G1358A:p.G453D]. Mutated spermatozoa from case 2 with reduced expression of PLCZ1 showed apparent acrosome detachment by TEM analysis. And ICSI with assisted oocyte activation (ICSI-AOA) treatment can partly rescue the TFF. Taken together, our findings revealed that novel biallelic variants in the paternal-effect genes ACTL7A and PLCZ1 were associated with human TFF, which expanding the spectrum of genetic causes and facilitating the genetic diagnosis of male infertility with TFF.
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