The structure of NAD+ consuming protein Acinetobacter baumannii TIR domain shows unique kinetics and conformations

Toll-like and interleukin-1/18 receptor/resistance (TIR) domain-containing proteins function as important signaling and immune regulatory molecules. TIR domain-containing proteins identified in eukaryotic and prokaryotic species also exhibit NAD+ hydrolase activity in select bacteria, plants, and mammalian cells. We report the crystal structure of the Acinetobacter baumannii TIR domain protein (AbTir-TIR) with confirmed NAD+ hydrolysis and map the conformational effects of its interaction with NAD+ using hydrogen-deuterium exchange-mass spectrometry. NAD+ results in mild decreases in deuterium uptake at the dimeric interface. In addition, AbTir-TIR exhibits EX1 kinetics indicative of large cooperative conformational changes, which are slowed down upon substrate binding. Additionally, we have developed label-free imaging using the minimally invasive spectroscopic method 2-photon excitation with fluorescence lifetime imaging, which shows differences in bacteria expressing native and mutant NAD+ hydrolase-inactivated AbTir-TIRE208A protein. Our observations are consistent with substrate-induced conformational changes reported in other TIR model systems with NAD+ hydrolase activity. These studies provide further insight into bacterial TIR protein mechanisms and their varying roles in biology.

Natural antisense transcripts regulate the neuronal stress response and excitability

Neurons regulate ionic fluxes across their plasma membrane to maintain their excitable properties under varying environmental conditions. However, the mechanisms that regulate ion channels abundance remain poorly understood. Here we show that pickpocket 29 (ppk29), a gene that encodes a Drosophila degenerin/epithelial sodium channel (DEG/ENaC), regulates neuronal excitability via a protein-independent mechanism. We demonstrate that the mRNA 3′UTR of ppk29 affects neuronal firing rates and associated heat-induced seizures by acting as a natural antisense transcript (NAT) that regulates the neuronal mRNA levels of seizure (sei), the Drosophila homolog of the human Ether-à-go-go Related Gene (hERG) potassium channel. We find that the regulatory impact of ppk29 mRNA on sei is independent of the sodium channel it encodes. Thus, our studies reveal a novel mRNA dependent mechanism for the regulation of neuronal excitability that is independent of protein-coding capacity.

DOI:http://dx.doi.org/10.7554/eLife.01849.001

Neurons communicate with one another via electrical signals known as action potentials. These signals are generated when a stimulus causes sodium and potassium ion channels in the cell membrane to open, leading to an influx of sodium ions, followed by an efflux of potassium ions. Changes in temperature affect the rate at which ion channels open and close, and thus affect how easy it is for a stimulus to trigger an action potential. In response to a sudden rise in temperature, neurons must adjust the number of ion channels in their membranes to ensure that they do not become hyperexcitable, which could result in epilepsy.

Now, Zheng et al. have revealed one possible mechanism for how neurons do this. In the fruit fly, Drosophila, a gene for a potassium channel is found on the same chromosomal location as a gene for a sodium channel, and some of the genetic elements that regulate the expression of these two genes even overlap. However, the genes are on opposite strands of the DNA double helix. This means that when the genes are transcribed to produce molecules of messenger RNA (mRNA), which is usually single stranded, some of the mRNA molecules will pair up to form double-stranded mRNA molecules. This is significant because such RNA ‘duplexes’ have been shown to inhibit the translation of conventional single-stranded mRNA molecules into proteins, or to lead to their complete degradation.

Zheng et al. found that flies with mutations in the potassium channel gene display seizures in response to sudden changes in temperature. However, insects with mutations in the sodium channel gene are not affected because, surprisingly, they have a higher than expected number of potassium channels. It turns out that the mutant sodium channel mRNA molecules are unable to form RNA duplexes with potassium channel mRNA molecules: these duplexes would normally limit the number of potassium channels so, in their absence, the number of potassium channels increases, and this protects the flies from seizures.

Zheng et al. also uncovered a novel mechanism by which mRNA molecules can regulate gene expression independent of their role as templates for proteins. Further work is required to determine whether this mechanism is also present in other organisms, including humans.

DOI:http://dx.doi.org/10.7554/eLife.01849.002

About 13% of women may have the wrong method of oocyte insemination when undergoing in vitro fertilization by failure to evaluate the abnormal hypo-osmotic swelling test score

PURPOSE

To determine the percentage of males with a low hypoosmotic swelling (HOS) test score in couples having in vitro fertilization-embryo transfer (IVF-ET) where the male partner had normal motile densities and no antisperm antibodies.

METHODS

The results were also analyzed according to the percentage of HOS scores < 50% when morphology using strict criteria was < or = 4% or > 4%. A retrospective review was performed.

RESULTS

There were 250 subnormal HOS scores out of 1993 otherwise normal semen specimens.

CONCLUSIONS

12.5% of couples would have had conventional oocyte inseminations rather than ICSI if the HOS test had not been not performed (it is rarely performed by other IVF centers). Without ICSI expected live delivered pregnancy rates would be close to zero for males with low HOS tests < 50%. Intracytoplasmic sperm injection allows pregnancy rates almost as good as completely normal sperm.

Protein turnover of the Wallenda/DLK kinase regulates a retrograde response to axonal injury

Regenerative responses to axonal injury involve changes in gene expression; however, little is known about how such changes can be induced from a distant site of injury. In this study, we describe a nerve crush assay in Drosophila melanogaster to study injury signaling and regeneration mechanisms. We find that Wallenda (Wnd), a conserved mitogen-activated protein kinase (MAPK) kinase kinase homologous to dual leucine zipper kinase, functions as an upstream mediator of a cell-autonomous injury signaling cascade that involves the c-Jun NH(2)-terminal kinase MAPK and Fos transcription factor. Wnd is physically transported in axons, and axonal transport is required for the injury signaling mechanism. Wnd is regulated by a conserved E3 ubiquitin ligase, named Highwire (Hiw) in Drosophila. Injury induces a rapid increase in Wnd protein concomitantly with a decrease in Hiw protein. In hiw mutants, injury signaling is constitutively active, and neurons initiate a faster regenerative response. Our data suggest that the regulation of Wnd protein turnover by Hiw can function as a damage surveillance mechanism for responding to axonal injury.

A tyrosine-based motif localizes a Drosophila vesicular transporter to synaptic vesicles in vivo

Vesicular neurotransmitter transporters must localize to synaptic vesicles (SVs) to allow regulated neurotransmitter release at the synapse. However, the signals required to localize vesicular proteins to SVs in vivo remain unclear. To address this question we have tested the effects of mutating proposed trafficking domains in Drosophila orthologs of the vesicular monoamine and glutamate transporters, DVMAT-A and DVGLUT. We show that a tyrosine-based motif (YXXY) is important both for DVMAT-A internalization from the cell surface in vitro, and localization to SVs in vivo. In contrast, DVGLUT deletion mutants that lack a putative C-terminal trafficking domain show more modest defects in both internalization in vitro and trafficking to SVs in vivo. Our data show for the first time that mutation of a specific trafficking motif can disrupt localization to SVs in vivo and suggest possible differences in the sorting of VMATs versus VGLUTs to SVs at the synapse.

Pretreatment of sperm with low hypo-osmotic swelling tests with chymotrypsin prior to intrauterine insemination (IUI) and avoidance of unprotectected intercourse results in pregnancy rates comparable to IUI for other male factor problems

PURPOSE

To carry out a retrospectively performed matched controlled study to determine the efficacy of pretreatment of sperm having low hypo-osmotic swelling (HOS) test scores with chymotrypsin galactose prior to intrauterine insemination (IUI) compared to IUI for other types of male factor problems. The women with male partners with low HOS scores were advised not to have unprotected intercourse.

METHODS

All cycles having IUI with chymotrypsin treated sperm for low HOS scores were matched with the very next woman having IUI for sperm with other male factor problems but with normal HOS scores.

RESULTS

There was a significantly higher clinical pregnancy rate with chymotrypsin treated sperm (32.3% per IUI) vs. 21.9% for other male factor cases. The live birth rate per IUI cycle was not significantly different (21.2% vs. 15.4%).

CONCLUSIONS

These results now show that pretreatment of sperm with low HOS scores allows very good pregnancy rates following IUI as long as the couple is cautioned about unprotected intercourse. These data support the concept that sperm with low HOS test scores impair fertility by transferring a toxic factor from the sperm to the zona pellucida to the embryo membrane which impairs the embryos from implanting.

A splice variant of the Drosophila vesicular monoamine transporter contains a conserved trafficking domain and functions in the storage of dopamine, serotonin, and octopamine

Vesicular monoamine transporters (VMATs) mediate the transport of dopamine (DA), serotonin (5HT), and other monoamines into secretory vesicles. The regulation of mammalian VMAT and the related vesicular acetylcholine transporter (VAChT) has been proposed to involve membrane trafficking, but the mechanisms remain unclear. To facilitate a genetic analysis of vesicular transporter function and regulation, we have cloned the Drosophila homolog of the vesicular monoamine transporter (dVMAT). We identify two mRNA splice variants (DVMAT-A and B) that differ at their C-terminus, the domain responsible for endocytosis of mammalian VMAT and VAChT. DVMAT-A contains trafficking motifs conserved in mammals but not C. elegans, and internalization assays indicate that the DVMAT-A C-terminus is involved in endocytosis. DVMAT-B contains a divergent C-terminal domain and is less efficiently internalized from the cell surface. Using in vitro transport assays, we show that DVMAT-A recognizes DA, 5HT, octopamine, tyramine, and histamine as substrates, and similar to mammalian VMAT homologs, is inhibited by the drug reserpine and the environmental toxins 2,2,4,5,6-pentachlorobiphenyl and heptachlor. We have developed a specific antiserum to DVMAT-A, and find that it localizes to dopaminergic and serotonergic neurons as well as octopaminergic, type II terminals at the neuromuscular junction. Surprisingly, DVMAT-A is co-expressed at type II terminals with the Drosophila vesicular glutamate transporter. Our data suggest that DVMAT-A functions as a vesicular transporter for DA, 5HT, and octopamine in vivo, and will provide a powerful invertebrate model for the study of transporter trafficking and regulation.

Lymphocyte immunotherapy can improve pregnancy outcome following embryo transfer (ET) in patients failing to conceive after two previous ET

PURPOSE

To determine if lymphocyte immunotherapy (LIT) can improve the outcome after embryo transfer (ET) in women failing to have a live delivery after at least two previous attempts.

METHODS

Women failing to deliver a live baby despite at least two previous ET cycles at Cooper Center for IVF irrespective of previous failed ET cycles in other centers were offered the option of lymphocyte immunotherapy prior to their next ET. They were subsequently matched to the very next woman having ET but in whom LIT was never offered or was refused. The matching was based on age, number of previous failed ET cycles, type of ET (fresh or frozen), and serum follicle stimulating hormone (FSH) level.

RESULTS

The clinical and viable pregnancy rate was 70.3% and 51.3% for the LIT group vs 45.9% and 16.2% for the controls (p < .05).

CONCLUSIONS

Lymphocyte immunotherapy may help improve outcome following ET in women with previous failures. The data should encourage a larger multicenter prospective study.

Leukocyte immunotherapy improves live delivery rates following embryo transfer in women with at least two previous failures: a retrospective review

PURPOSE

To determine whether leukocyte immunotherapy (LIT) could improve live delivery rate following embryo transfer (ET) in women who were not successful in prior attempts.

METHODS

Paternal leukocytes were intradermally injected in some women who had failed to have a successful pregnancy following at least two prior ETs approximately two weeks prior to fresh or frozen ET and repeated at the time of the 3rd rising serum beta human chorionic gonadotropin level and at eight weeks if a pregnancy occurred. Clinical pregnancy and live pregnancy rates (PRs) were compared to those women having ETs during the same time period not receiving LIT.

RESULTS

Thirty-six of 94 (38.3%) patients receiving LIT (group 1) conceived following fresh or frozen ET vs 98 of 341 (28.7%) for women not receiving LIT (group 2) (p = NS). The live delivery rate per ET cycle was 30.8% (39/94) vs 19.7% for group 2 (p = .02). For the subset of women failing despite five previous ETs 17 of 37 (45.9%) group 1 women had a clinical pregnancy vs 18 of 64 (28.1%) group 2 women (p = .07%) and live delivery rates were 35.1% (13/37) vs 15.6% (10/64) (p = .024).

CONCLUSIONS

These retrospective data encourage a prospective study of LIT combined with progesterone vs controls receiving progesterone only for recalcitrant patients having ETs.

Matched control study of efficacy of lymphocyte immunotherapy in donor oocyte recipients to support or refute the concept of need for histocompatibility antigen sharing of the couple for benefits

PURPOSE

To determine if lymphocyte immunotherapy (LIT) improves outcome in recalcitrant donor oocyte recipients. If LIT was found to be similarly effective in this group, the theory of shared maternal/paternal histocompatibility antigens would seem less plausible because the donor oocyte introduces another group of histocompatibility antigens.

METHODS

Donor oocyte recipients with a history of failure to conceive despite at least two previous ETs using donor oocytes were given the option of having LIT. They were matched with the very next recipient who declined LIT therapy. Lymphocyte immunotherapy using the male partner's lymphocytes was given two weeks before transfer and twice more if pregnant.

RESULTS

Only three controls delivered versus recipients treated with LIT.

CONCLUSIONS

The fact that benefit from LIT extended to oocyte recipients challenges the concept that lymphocyte immunotherapy is most beneficial for couples sharing histocompatibility antigens.