Two frequent loss-of-function mutations in Aurora Kinase C gene in Algerian infertile men with macrozoospermia.

Macrozoospermia is associated with severe male infertility. To date, the only gene implicated in this phenotype is the Aurora Kinase C gene. We report in this work the genetic screening of AURKC mutations in 34 patients with macrozoospermia among 3,536 Algerian infertile men. Nineteen patients (56%) were homozygotes for the c.144delC mutation, eight (23.52%) homozygotes for the c.744C>G (p.Y248*) mutation and two (5.88%) compound heterozygotes. No AURKC mutation was identified in five patients (14.7%). Interestingly and although it is generally accepted that nearly all positive mutated AURKC patients have close to 100% large-head spermatozoa, our results showed that 11 patients with AURKC mutations (32.35%) had large-headed spermatozoa lower than 70% (7 with c.144delC and 4 with p.Y248*), and no mutation was found in 2 patients who had >70% of macrocephalic spermatozoa. Twenty ICSI attempts were performed before genetic screening resulting in 39 embryos but no pregnancy was obtained. The sequencing of AURKC exons 3 and 6 is appropriate as a first-line genetic exploration in these patients to avoid unsuccessful ICSI attempts. A percentage of large head spermatozoa beyond 25% and a percentage of multiflagellar spermatozoa beyond 10% are predictive of a positive mutation diagnosis.

Isolation and characterization of a myotoxin from the venom of Macrovipera lebetina transmediterranea.

The Macrovipera lebetina venom consists of a complex mixture of proteins belonging to a few main families according to their enzymatic and pharmacological activity. Given the serious pathophysiological effects caused by M. lebetina bites mainly induced by muscle degeneration, we decided to investigate the myotoxic activity of some venom fractions. In the present study we describe the purification and characterization of a 22.600 kDa protein, named in the following Mlp4.2, that shares myotoxic but not haemorrhagic activity in vivo. Herein we report that Mlp4.2 is a metalloproteinase belonging to the PI-SVMPS family able, in vitro, to proteolyse extracellular matrix proteins as laminin and fibronectin. Histological observations of mouse anterior tibialis Mlp4.2-treated muscle, demonstrate that this protein induces a massive degeneration of myofibers but not haemorrhage. The immunofluorescence analysis of protein-treated anterior tibialis, demonstrates that Mlp4.2 is able to disarray the laminin network surrounding muscle fibers. Finally Mlp4.2 did not show any direct cytolytic activity towards the myogenic cell line C2C12 in culture. The data reported herein suggest that the myotoxicity of Mlp4.2 is primarily linked to the disruption of the muscle fibers interaction with extracellular matrix proteins.

Purification and characterization of a fibrinogenolytic and hemorrhagic metalloproteinase isolated from Vipera lebetina venom.

Serious clinical problems such as hemorrhage, edema and tissue necrosis are observed following viperid envenoming. A proteinase (VLH2) was isolated from Vipera lebetina by combination of two chromatographic steps of gel filtration on Sephadex G-75 followed by DEAE Sephadex A-50. This acidic proteinase, with a molecular mass of about 55 kDa and isoelectric point of 5.4, displayed a fibrinogenolytic and hemorrhagic activities. VLH2 hydrolyses rapidly the Aalpha-chain of fibrinogen, followed, more slowly, by the Bbeta-chain, leaving the gamma-chain unaffected. The proteolytic and hemorrhagic activities of VLH2 were inhibited by EDTA, EGTA and 1-10 phenanthroline. However, these activities were not affected by AEBSF, Aprotinine, and E64, suggesting that VLH2 is a metalloproteinase with an alpha-fibrinogenase activity, requiring calcium and zinc for its activity. The enzyme VLH2 did not have proteolytic activity towards extracellular components gelatin, laminin and fibronectin. The hemorrhagic metalloproteinase VLH2 has a myotoxic activity, as determined by serum CK level and histological observation of muscle tissue. Furthermore, VLH2 is able to induce apoptosis of C2C12 myotubes. These results indicate that VLH2 is implicated in the local and systemic bleeding, contributing thus in the toxicity of V. lebetina venom.