Alex Simon scite author profile

The vesicular gastric H,K-ATPase catalyzes an electroneutral H for K exchange allowing acidification of the intravesicular space. There is a total of 28 cysteines present in the ␣ subunit of the gastric H,K-ATPase, of which 10 are found in the predicted transmembrane segments and their connecting loop, and 9 are present in the ␤ subunit, of which 6 are disulfide-linked. To determine which of these was accessible to extracytoplasmic attack, the enzyme was inhibited by four different sub- , under acid transporting conditions. All of these compounds are weak bases that accumulate in the acidic space generated by the pump and undergo an acid catalyzed rearrangement to a cationic sulfenamide, which forms disulfides with accessible cysteines. The relative rates of acid activation of these compounds corresponded to the relative rates of inhibition of ATPase activity and acid transport. Fragmentation of the enzyme by trypsin followed by SDS-polyacrylamide gel electrophoresis showed that omeprazole bound covalently to one of the two cysteines in the domains containing the fifth and sixth transmembrane segments and their extracytoplasmic loop and to cysteine 892 in the loop between the seventh and eighth transmembrane segments, but inhibition correlated with the reaction with cysteines in the fifth and sixth domain. Lansoprazole bound to the cysteines in these two domains as well as to cysteine 321 toward the extracytoplasmic end of the third transmembrane segments. Pantoprazole bound only to either cysteine 813 or 822 in the fifth and sixth transmembrane region. The inhibition of Rabeprazole correlated also with its binding to this part of the protein, but this compound continued to bind after full inhibition, eventually binding also to cysteines 321 and 892. No binding was found to any of the cysteines in the seventh to tenth transmembrane segments. Thermolysin digestion of the isolated omeprazole-labeled fifth and sixth transmembrane pair showed that cysteine 813 was the site of labeling. It is concluded that binding of these sided reagents to cysteine 813 in the loop between transmembrane (TM)5 and TM6 is sufficient for inhibition of ATPase activity and acid transport by the gastric acid pump. Of the 10 cysteines present in the membrane and extracytoplasmic domain, only three are exposed sufficiently to allow reactivity with these cationic thiol reagents. The binding to cysteine 813 defines the location of the extracytoplasmic loop between TM5 and TM6 and places the carboxylic acids 820 and 824 conserved between the gastric H,K-and the Na,K-ATPases in TM6, consistent with their assumed role in cation binding.

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Assessment and treatment of repeated implantation failure (RIF)

Simon

Laufer

2012

J Assist Reprod Genet

215

161

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Repeated implantation failure (RIF) is determined when embryos of good quality fail to implant following several in vitro fertilization (IVF) treatment cycles. Implantation failure is related to either maternal factors or embryonic causes. Maternal factors include uterine anatomic abnormalities, thrombophilia, non-receptive endometrium and immunological factors. Failure of implantation due to embryonic causes is associated with either genetic abnormalities or other factors intrinsic to the embryo that impair its ability to develop in utero, to hatch and to implant. New methods of time-lapse imaging of embryos and assessment of their metabolic functions may improve selection of embryos for transfer, and subsequent outcomes for IVF patients, as well as for those diagnosed with RIF. This review discusses the various causes associated with RIF and addresses appropriate treatments.

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Repeated implantation failure: clinical approach

Simon

Laufer

2012

Fertility and Sterility

218

149

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Derivation of Xeno-Free and GMP-Grade Human Embryonic Stem Cells – Platforms for Future Clinical Applications

et al. 2012

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Clinically compliant human embryonic stem cells (hESCs) should be developed in adherence to ethical standards, without risk of contamination by adventitious agents. Here we developed for the first time animal-component free and good manufacturing practice (GMP)-compliant hESCs. After vendor and raw material qualification, we derived xeno-free, GMP-grade feeders from umbilical cord tissue, and utilized them within a novel, xeno-free hESC culture system. We derived and characterized three hESC lines in adherence to regulations for embryo procurement, and good tissue, manufacturing and laboratory practices. To minimize freezing and thawing, we continuously expanded the lines from initial outgrowths and samples were cryopreserved as early stocks and banks. Batch release criteria included DNA-fingerprinting and HLA-typing for identity, characterization of pluripotency-associated marker expression, proliferation, karyotyping and differentiation in-vitro and in-vivo. These hESCs may be valuable for regenerative therapy. The ethical, scientific and regulatory methodology presented here may serve for development of additional clinical-grade hESCs.

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Transfer of frozen-thawed embryos in artificially prepared cycles with and without prior gonadotrophin-releasing hormone agonist suppression: a prospective randomized study

Simon¹,

Hurwitz²,

Zentner³

et al. 1998

Human Reproduction

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Transfer of frozen-thawed embryos is usually carried out in a natural cycle or in a programmed cycle in which the endometrium is exogenously stimulated following down-regulation of the hypophysis. To analyse the possibility that the programmed cycle for embryo transfer can still be hormonally manipulated without the use of gonadotrophin-releasing hormone agonist (GnRHa) we have conducted a prospective randomized study that compared the outcome of frozen-thawed embryo transfer cycles using micronized 17beta-oestradiol and micronized progesterone preparations with and without the concomitant use of GnRHa. One hundred and six patients were randomly divided into two groups. In group A (53 patients) 4 mg/day of micronized 17beta-oestradiol was initiated following down-regulation of hypophysis. In group B (53 patients) oestrogen stimulation started on day 1 of the cycle without prior pituitary down-regulation using a dose of 6 mg/day for 7 days. In both groups, micronized progesterone in a dose of 900 mg/day was administered vaginally after at least 12 days of oestrogen stimulation. Embryo transfer embryo transfer took place 48-72 h thereafter according to the cryopreserved embryonic stage. Overall, none of the patients had any follicular development and only one cycle in group B had to be cancelled because of premature progesterone secretion. The two groups did not differ in age (31+/-5.6 and 31+/-5.0 years), number of embryos transferred per patient (3.4+/-1.2 and 3.3+/-1.0), and day of progesterone initiation (15+/-2.2 and 15+/-1.9 for groups A and B respectively). The endometrial thickness on the day of progesterone initiation was comparable in both groups (11 +/-1.6 and 10+/-1.6 mm for groups A and B respectively). Similarly, the pregnancy rate per embryo transfer and implantation rate in group A (26.4% and 9.5%) were comparable to those of group B (21.1% and 9%). These results indicate that programmed cycles can be successfully applied by administering a high dose of micronized 17beta-oestradiol starting on day 1 of the cycle. Compared to GnRHa programmed cycles, this approach is simpler, more convenient for both the patient and medical staff, and results in a similar success rate at a lower cost.

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Alex Simon

Sites of Reaction of the Gastric H,K-ATPase with Extracytoplasmic Thiol Reagents

Assessment and treatment of repeated implantation failure (RIF)

Repeated implantation failure: clinical approach

Derivation of Xeno-Free and GMP-Grade Human Embryonic Stem Cells – Platforms for Future Clinical Applications

Transfer of frozen-thawed embryos in artificially prepared cycles with and without prior gonadotrophin-releasing hormone agonist suppression: a prospective randomized study

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