Testicular cancer is the most common cancer in young men. Several studies have reported an alteration in semen quality in nonseminoma tumors, but this result has not been confirmed in all of the published data. We performed a retrospective study in a population of 1158 men with testicular cancer who banked sperm between 1999 and 2003 in 11 French Centre d'Etude et de Conservation des Oeufs et du Sperme humain laboratories. Our study evaluated prefreeze and postthaw sperm parameters according to patient medical history, tumor histological type, and disease stage. Pure seminomas were found in 48% of our population. Testicular cancer was generally diagnosed at stage I. In cases of a history of unilateral cryptorchidism, testicular cancer occurred preferentially in the maldescended testis. Semen samples were preferentially collected after orchiectomy. The sperm concentration and total sperm number were significantly lower before orchiectomy in seminomas compared with nonseminoma tumors (P , .001). After orchiectomy, these parameters decreased for nonseminoma tumors and did not vary for seminomas. Semen parameters were more severely impaired for stage III tumors, and when patients had a history of cryptorchidism or when they were less than 20 years of age. Azoospermia was more frequently observed before than after orchiectomy. In this study, we determined that sperm cryobanking should preferentially be performed before orchiectomy and that testicular sperm extraction concurrent with orchiectomy should be used in severe spermatogenesis impairment. Our study highlights that seminomas alter sperm production more significantly than nonseminoma tumors and seem to preferentially impair spermatogenesis in tumor-bearing testes.
Through a report of 4 late-onset cases with mitochondrial DNA (mtDNA) depletion, we address the specificity of the clinical entities associated with a very low residual amount of mtDNA. Three of the patients met the diagnostic criteria of Kearns Sayre syndrome, which has never been associated with mtDNA depletion. The fourth patient had an isolated skeletal myopathy. Deleted mtDNA molecules were found by long-range polymerase chain reaction (PCR) only in the Kearns Sayre syndromes, which strengthens the clinical differences between the two types of patients. All patients had extremely low residual amounts of mtDNA as shown by Southern blot analysis. Using an original method based on competitive PCR, we were able to measure the number of mtDNA copies per diploid genome. These results demonstrated the severity of the depletion in the patients by comparison not only to normal controls but also to patients with mtDNA disorders. Despite the severity of the depletion, in situ hybridization using two mtDNA transcripts revealed a normal steady-state level of transcription. Such compensation provides clues to the striking contrast between the severity of mtDNA depletion and the late onset and slowly progressive disease.
Colistin is a mixture of polymyxin E1 and E2, bactericidal pentacationic lipopeptides used to treat infections caused by Gram-negative pathogens such as Pseudomonas aeruginosa and Klebsiella pneumoniae. Industrial production of colistin is obtained by a fermentation process of the natural producer Paenibacillus polymyxa var colistinus. NonRibosomal peptide synthetases (NRPS) coding the biosynthesis of polymyxins A, B and P have been recently described, rendering thereof the improvement of their production possible. However, the colistin biosynthesis pathway was not published so far. In this study, a Paenibacillus alvei has been identified by biochemical (Api 50 CH system) and molecular (16S rDNA sequencing) methods. Its culture supernatant displayed inhibitory activity against Gram-negative bacteria (P. aeruginosa, K. pneumoniae, Salmonella spp.). Two polymyxins, E1 and E2, were recovered from the supernatant and were characterized by high resolution LC-MS. A genomic library (960 clones) was constructed to identify the gene cluster responsible for biosynthesis of polymyxins. Selection of the clones harbouring the sequences of interest was obtained by a simple PCR-based screening. We used primers targeting NRPS sequences leading to the incorporation of amino acids present in polymyxins E. The sequences from three clones of interest were assembled on 50.4 kb. Thus, five open reading frames corresponding to a new NRPS gene cluster of 41 kb were identified. In silico, analyses revealed the presence of three NRPS implicated in the biosynthesis of polymyxins E. This work provides insightful information on colistin biosynthesis and might contribute to future drug developments in this group of antibiotics.
Cryopreservation and freezing-thawing effects on the fertilizing ability of human spermatozoa commonly are evaluated by post-thaw motility. Various studies have depicted the ultrastructural changes caused by freezing-thawing, yet the chromatin alterations have been studied very limitedly. Our aim was to determine the extent to which freezing-thawing alters the chromatin of human spermatozoa, using two analytical methods: acridine orange staining and Feulgen-DNA cytophotometric studies. Both methods revealed a dramatic effect of freezing-thawing on sperm chromatin: the native DNA content decreased as did the Feulgen-DNA content, and sperm surface area was reduced. These results indicate an effect on DNA, diminished accessibility for Feulgen, and a decrease in nuclear surface area and prompt us to hypothesize a relationship between an "overcondensation" state for sperm chromatin after freezing-thawing and a lower conception rate for human semen after cryostorage.
Combination of antiretroviral drugs has dramatically improved the prognosis of human HIV infection but is also associated with many adverse effects, the mitochondrial origin of which is discussed. In this study using extensive diagnostic procedures set up for inherited mitochondrial disorders, we analyzed HIV patients under active antiretroviral therapy who complained of severe adverse symptoms unexplained by HIV. All these patients had been treated for at least 5 years. They all had significant mitochondrial damage as evidenced by the diverse combination of lactate accumulation in blood or cerebrospinal fluid, mitochondrial morphologic alterations in muscle, and biochemical defects in muscle and liver, which designated mitochondrial DNA (mtDNA) as the main target of the toxic mechanisms. Southern blot and/or polymerase chain reaction -based analyses disclosed multiple deletions of the muscle mtDNA and reduction of the muscle and/or liver mtDNA copy number in a majority of the patients. In opposition to muscle and liver, blood mononuclear cells were devoid of significant biochemical or genetic alterations. Whether the mitochondrial toxicity is directly responsible for the patients' adverse symptoms remains disputable, because the investigations were transversal. Its severity argues for its clinical relevance, however. The skewed tissue distribution of mitochondrial alterations indicates potential pitfalls in the needed future prospective studies.
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