Stability-enhanced low-frequency fiber optic hydrophone based on an extrinsic Fabry-Perot interferometer.

Fiber optic hydrophones (FOHs) offer the notable advantage of electromagnetic interference resistance. Nevertheless, overcoming the challenge of sustaining stable, high-performance operation in intricate underwater settings at a low cost remains a considerable obstacle for them. To circumvent the restrictions noted above, we employed a miniaturized FOH, utilizing an easily fabricated extrinsic Fabry-Perot interferometer (EFPI) which is made up of a composite chromium-aluminum (Cr-Al) membrane and fiber. The linear demodulation also suppresses the drift issue in the output spectrum. The average sound pressure sensitivity of the sensor, according to experimental findings, is around -139.15 dB re 1 V/µPa, while the equivalent noise sound pressure at 1 kHz is 51.52 dB re 1 µPa/Hz1/2. This sensor has a lot of potential because of features like sensitive low-frequency response and noise performance.

Hsa_circ_0063804 enhances ovarian cancer cells proliferation and resistance to cisplatin by targeting miR-1276/CLU axis.

PURPOSE: This article researched circ_0063804 effects on ovarian cancer (OC) development and resistance to cisplatin, aiming to provide a new target for OC therapy. METHODS: A total of 108 OC patients participated in this study. The circle structure of circ_0063804 was investigated using RNase R. Circ_0063804 expression in OC cells were up-regulated or down-regulated by transfection. Cell proliferation was assessed by cell counting kit-8 assay and colony formation assay. Flow cytometry was used to detect apoptosis. OC cells resistance to cisplatin was explored through MTT assay. Luciferase reporter assay was performed. qRT-PCR and Western blot was applied to research genes expression. Xenograft tumor experiment was conducted using nude mice. Ki67 expression in xenograft tumor was detected by immunohistochemistry. RESULTS: Circ_0063804 expression was up-regulated in OC patients and indicated poor prognosis (P < 0.05). Circ_0063804 had a stable circle structure. Circ_0063804 enhanced proliferation, resistance to cisplatin and reduced apoptosis of OC cells (P < 0.01). miR-1276 was down-regulated in OC patients and sponged by circ_0063804. CLU was directly inhibited by miR-1276 and up-regulated in OC patients. Circ_0063804 exacerbated malignant phenotype and resistance to cisplatin of OC cells in vitro by enhancing CLU expression via sponging miR-1276 (P < 0.01). Circ_0063804 silencing inhibited OC cells growth, resistance to cisplatin and Ki67 expression in vivo (P < 0.01). CONCLUSION: Circ_0063804 promoted OC cells proliferation and resistance to cisplatin by enhancing CLU expression via sponging miR-1276.

Polyphyllin E Inhibits Proliferation, Migration and Invasion of Ovarian Cancer Cells by Down-Regulating the AKT/NF-κB Pathway.

Ovarian cancer has long been considered the second-highest cancer threat to women's reproductive system with high mortality. This is ascribed to the absence of highly efficient therapy and cancer metastasis. Accordingly, there is an urgent need for the development of new agents. Recently, Traditional Chinese medicine has gained extensive interest because of its safe use, validity, and distinct pharmacological effects. Polyphyllin E (PPE), as a major constituent in Rhizoma Paridis, is a promising cancer-fighting agent. However, the effect of PPE on ovarian cancers as well as associated latent mechanisms is still not completely understood. In this study, PPE was found to prohibit the proliferation of SK-OV-3 and OVCAR-3 ovarian cancer cells, causing marked cell death. Additionally, low-dose PPE could also inhibit motility and invasion of ovarian cancer cells. The mechanistic assessment revealed PPE-mediated matrix metalloproteinases, i.e., MMP2 and MMP9, inhibition via the AKT-nuclear factor kappa B (AKT/NF-κB) signaling pathway. Rescue experiments with transfection of AKT lentiviral particles remarkably reversed PPE inhibitory effects against ovarian cancer cells. In conclusion, PPE could inhibit proliferation of ovarian cancer cell migration and invasion by down-regulating the AKT/NF-κB pathway. Moreover, it has the potential to act as a novel agent for ovarian cancer treatment.

Clinical assessment of prophylactic chemotherapy in treating with hydatidiform mole: A protocol for systematic review and meta-analysis.

BACKGROUND: Hydatidiform mole (HM) is more common as molar pregnancy. It is a disease classified under the category of gestational trophoblastic diseases, which could metastasize after originating in the placenta. A majority of females suffering from molar pregnancies are curable by evacuating retained products of conception and the patient's fertility is preserved. In some cases, the growth perseveres and leads to gestational trophoblastic neoplasia, which is an extremely malicious condition that needs chemo-based treatment. There is a possibility to lessen the risk of gestational trophoblastic disease in females with HM through the administration of prophylactic chemo. Yet, there is controversy regarding prophylactic chemotherapy administered pre-or-post removal of HM to curtail the malignant sequelae. Therefore, we will conduct this research to assess both the efficacy as well as security of using prophylactic chemotherapy to treat HM. METHODS: In the preliminary review, the authors will search for randomized controlled trials involving prophylactic chemotherapy to treat HM. The literature search is carried out in the following electronic databases from their inception to May 2021: Chinese National Knowledge Infrastructure, Chinese BioMedical Literature, and WanFang database are the three Chinese language databases. Web of Science, PubMed, Cochrane Library, and EMBASE are the four English language databases. The authors will also perform a manual search through the bibliographies in related literature to find extra articles and ongoing studies. Two independent authors will assess the literature according to an inclusion criteria, use a specialized data collection table to extract data, and use the Cochrane 'Risk of bias' tool for evaluating any possible bias risk in the selected articles. Data synthesis and statistical operations are completed with the RevMan software (v. 5.3). RESULTS: The present systematic analysis provides a rationalized synthesis of existing evidence related to the use of prophylactic chemotherapy in the treatment of HM. CONCLUSION: Our findings will summarize the current evidences for prophylactic chemotherapy in the treatment of HM. ETHICS AND DISSEMINATION: An ethics approval is nonrequired because pre published results will be used. REGISTRATION NUMBER: DOI 10.17605/OSF.IO/6QV52 (https://osf.io/6qv52/).

Floquet-enhanced spin swaps.

The transfer of information between quantum systems is essential for quantum communication and computation. In quantum computers, high connectivity between qubits can improve the efficiency of algorithms, assist in error correction, and enable high-fidelity readout. However, as with all quantum gates, operations to transfer information between qubits can suffer from errors associated with spurious interactions and disorder between qubits, among other things. Here, we harness interactions and disorder between qubits to improve a swap operation for spin eigenstates in semiconductor gate-defined quantum-dot spins. We use a system of four electron spins, which we configure as two exchange-coupled singlet-triplet qubits. Our approach, which relies on the physics underlying discrete time crystals, enhances the quality factor of spin-eigenstate swaps by up to an order of magnitude. Our results show how interactions and disorder in multi-qubit systems can stabilize non-trivial quantum operations and suggest potential uses for non-equilibrium quantum phenomena, like time crystals, in quantum information processing applications. Our results also confirm the long-predicted emergence of effective Ising interactions between exchange-coupled singlet-triplet qubits.

Adiabatic quantum state transfer in a semiconductor quantum-dot spin chain.

Semiconductor quantum-dot spin qubits are a promising platform for quantum computation, because they are scalable and possess long coherence times. In order to realize this full potential, however, high-fidelity information transfer mechanisms are required for quantum error correction and efficient algorithms. Here, we present evidence of adiabatic quantum-state transfer in a chain of semiconductor quantum-dot electron spins. By adiabatically modifying exchange couplings, we transfer single- and two-spin states between distant electrons in less than 127 ns. We also show that this method can be cascaded for spin-state transfer in long spin chains. Based on simulations, we estimate that the probability to correctly transfer single-spin eigenstates and two-spin singlet states can exceed 0.95 for the experimental parameters studied here. In the future, state and process tomography will be required to verify the transfer of arbitrary single qubit states with a fidelity exceeding the classical bound. Adiabatic quantum-state transfer is robust to noise and pulse-timing errors. This method will be useful for initialization, state distribution, and readout in large spin-qubit arrays for gate-based quantum computing. It also opens up the possibility of universal adiabatic quantum computing in semiconductor quantum-dot spin qubits.

Long non-coding RNA SNHG25 promotes epithelial ovarian cancer progression by up-regulating COMP.

Long non-coding RNAs (lncRNAs) play a pivotal role in the genesis and development of cancer. The role and molecular mechanisms of SNHG25 in epithelial ovarian cancer (EOC) have not been investigated. In the present study, we showed that SNHG25 expression was up-regulated in EOC tissues relative to normal ovarian tissues. In vitro, functional experiments demonstrated that high expression of SNHG25 promoted proliferation, migration and invasion, and decreased apoptosis, in ovarian cancer cell lines. In vivo, downregulation of SNHG25 inhibited the growth (tumor volume) of subcutaneous xenografts in nude mice. High-throughput sequencing and western blot analysis showed a significant decrease in the expression of COMP mRNA and protein in SNHG25 knockdown compared to control ovarian cancer cells. These data suggest that SNHG25 promotes EOC progression by regulating COMP, serving as a potential biomarker for EOC.

Long-Distance Superexchange between Semiconductor Quantum-Dot Electron Spins.

Because of their long coherence times and potential for scalability, semiconductor quantum-dot spin qubits hold great promise for quantum information processing. However, maintaining high connectivity between quantum-dot spin qubits, which favor linear arrays with nearest neighbor coupling, presents a challenge for large-scale quantum computing. In this work, we present evidence for long-distance spin-chain-mediated superexchange coupling between electron spin qubits in semiconductor quantum dots. We weakly couple two electron spins to the ends of a two-site spin chain. Depending on the spin state of the chain, we observe oscillations between the distant end spins. We resolve the dynamics of both the end spins and the chain itself, and our measurements agree with simulations. Superexchange is a promising technique to create long-distance coupling between quantum-dot spin qubits.

Conditional teleportation of quantum-dot spin states.

Among the different platforms for quantum information processing, individual electron spins in semiconductor quantum dots stand out for their long coherence times and potential for scalable fabrication. The past years have witnessed substantial progress in the capabilities of spin qubits. However, coupling between distant electron spins, which is required for quantum error correction, presents a challenge, and this goal remains the focus of intense research. Quantum teleportation is a canonical method to transmit qubit states, but it has not been implemented in quantum-dot spin qubits. Here, we present evidence for quantum teleportation of electron spin qubits in semiconductor quantum dots. Although we have not performed quantum state tomography to definitively assess the teleportation fidelity, our data are consistent with conditional teleportation of spin eigenstates, entanglement swapping, and gate teleportation. Such evidence for all-matter spin-state teleportation underscores the capabilities of exchange-coupled spin qubits for quantum-information transfer.

G-5555 synergized miR-485-5p to alleviate cisplatin resistance in ovarian cancer cells via Pi3k/Akt signaling pathway.

The present study was meant for the discovery of the underlying functions of miR-485-5p in ovarian cancer concerning cisplatin resistance in vitro. RT-qPCR assessed the miR-485-5p expression in ovarian cancer cell lines, normal cells and cisplatin-resistant Cell line OVCA433-CR. After OVCA433-CR treated with 0,3,5umol/L cisplatin, miR-485-5p expressions were determined. MTT observed the cell cytotoxicity in OVCA433-CR after regulation of miR-485-5p. Targets can predicted the putative binding between miR-485-5p and PAK1 and Luciferase Assay verified this. RT-qPCR decided the inhibitory effect in between. MTT tested the cytotoxicity in different combinations of miR-485-5p and PAK1. Western Blot tested the phosphorylation of Pi3k and Akt in response to miR-485-5p and PAK1 interplay. We evaluated the role of Pi3k/Akt signaling in regulation of miR-485-5p and cisplatin resistance with Wortmannin. miR-485-5p was lower expressed in ovarian cancer cells than normal ones and even lower in OVCA433-CR than OVCA433. As the cisplatin concerntration increased, miR-485-5p decreased. miR-485-5p mimics induced lower cisplatin resistance while miR-485-5p inhibitor caused higher resistance. PAK1 targeted miR-485-5p and inhibited miR-485-5p. PAK1 inhibitor helped to lower the resistance to cisplatin caused by miR-485-5p upregulation. miR-485-5p mimics silenced Pi3k/Akt signaling and PAK1 inhibitor aggravated the silencing. Inhibition of Pi3k/Akt signaling increased miR-485-5p, thereby decreasing the cisplatin-resistance in OVCA433-CR. miR-485-5p decreased cisplatin resistance in ovarian cancer cells via Pi3k/Akt signaling, suggesting that miR-485-5p upregulation might alleviate the cisplatin resistance in ovarian patients.

PNMA5 knockdown suppresses the proliferation, invasion, and metastasis of epithelial ovarian cancer cells.

BACKGROUND: Ovarian cancer is a severe gynecological malignancy. Paraneoplastic Ma antigen 5 (PNMA5) is a confirmed tumor onconeural antigen, which has been screened as a female fertility factor. PNMA5 overexpression might serve as a marker of poor prognosis in colon cancer. Our earlier study showed that PNMA5 was essential for meiosis in mouse oocytes. In this study, we investigate the role and probable mechanism of PNMA5 in the occurrence and development of epithelial ovarian cancer (EOC). METHODS: Immunochemistry and western blot analyses were used to verify PNMA5 overexpression in clinical EOC tissues and EOC cell line HO8910. A specific siRNA was used to reduce PNMA5 levels, and several proliferation and migration-related indexes were assessed. We also examined mitochondria, microfilaments, and several essential kinases. RESULTS: We found that the expression of PNMA5 in EOC tissues was significantly higher than that in benign ovarian tumors and healthy normal ovarian tissues and that this was strictly related to the FIGO stage and histological grade. PNMA5 expression in ovarian cancer cell line HO8910 was higher than that in the normal healthy ovarian cell line Moody. PNMA5 knockdown in HO8910 cells not only inhibited the proliferation, migration, invasion, cell cycle, and F-actin polymerization of HO8910 cells but also promoted early apoptosis and led to abnormal distribution and accumulation of mitochondria. PNMA5 phosphorylation was found to be positively regulated by Src activity, and PNMA5 phosphorylation promoted the downstream glycogen synthase kinase-3ß (GSK-3ß) signaling pathway. CONCLUSIONS: PNMA5 plays a pivotal role in the occurrence and development of EOC and is a potential marker of this disease.

Coherent spin-state transfer via Heisenberg exchange.

Quantum information science has the potential to revolutionize modern technology by providing resource-efficient approaches to computing1, communication2 and sensing3. Although the physical qubits in a realistic quantum device will inevitably suffer errors, quantum error correction creates a path to fault-tolerant quantum information processing4. Quantum error correction, however, requires that individual qubits can interact with many other qubits in the processor. Engineering such high connectivity can pose a challenge for platforms such as electron spin qubits5, which naturally favour linear arrays. Here we present an experimental demonstration of the transmission of electron spin states via the Heisenberg exchange interaction in an array of spin qubits. Heisenberg exchange coupling-a direct manifestation of the Pauli exclusion principle, which prevents any two electrons with the same spin state from occupying the same orbital-tends to swap the spin states of neighbouring electrons. By precisely controlling the wavefunction overlap between electrons in a semiconductor quadruple quantum dot array, we generate a series of coherent SWAP operations to transfer both single-spin and entangled states back and forth in the array without moving any electrons. Because the process is scalable to large numbers of qubits, state transfer through Heisenberg exchange will be useful for multi-qubit gates and error correction in spin-based quantum computers.

Pnma5 is essential to the progression of meiosis in mouse oocytes through a chain of phosphorylation.

PNMA (paraneoplastic antigen MA) family includes Pnma1-6. Although other members have been found to be involved in paraneoplastic neurological disorders, death receptor-dependent apoptosis, and tumorigenesis, Pnma5 was thought to be a female fertility factor, as indicated by one genome-wide study. But until now there have not been any further functional studies about Pnma5 in female meiosis. Our preliminary study indicated that Pnma5 might play important roles in meiosis. To further address this, Pnma5 was knocked down in in-vitro maturated (IVM) mouse oocytes, which are common models for mammalian female meiosis, by specific siRNA, and results showed that the loss of Pnma5 significantly delayed the progression of meiosis I and increased chromosome segregation errors during anaphase I. In in-vitro fertilization (IVF), Pnma5 knockdown caused significantly lower fertilization. To assess how it affects meiosis, Pnma5 knockdown was found to significantly decrease the stability of spindle microtubules and altered F-actin organization within actin cap regions, cause significantly abnormal mitochondria aggregation and lower ATP concentration. Next we have found that phosphorylation at Thr533 re-located Pnma5 strongly to spindles & cortex and was required for the phosphorylation of Akt and Gsk3ß, while Src and Erk1/2 phosphorylation was required for the phosphorylation of Pnma5, indicating that phosphorylated Pnma5 is the active form and subsequently activates Akt and Gsk3ß. Collectively this study suggests that Pnma5 is important for meiosis and is the pivot of Src→Erk1/2→Pnma5→Akt→Gsk3ß pathway.

Upregulation of long noncoding RNA SPRY4-IT1 correlates with tumor progression and poor prognosis in cervical cancer.

The identification of cancer-associated long noncoding RNA (lncRNA) is critical for us to understand cancer pathogenesis and development. The aim of this study was to evaluate the expression profile of the lncRNA SPRY4-IT1 in cervical cancer and to identify its clinical significance in cancer progression. The expression levels of SPRY4-IT1 in cervical cancer tissues were measured by quantitative real-time PCR, and its correlation with overall survival of cervical cancer patients was analyzed statistically. Our results showed that the expression levels of SPRY4-IT1 were higher in cervical cancer tissues than in adjacent normal tissues. Patients with higher SPRY4-IT1 expression had advanced clinical characteristics and a shorter overall survival time than those with lower SPRY4-IT1 expression. Moreover, multivariate analysis showed that relative SPRY4-IT1 expression was an independent predictor of overall survival in patients with cervical cancer. In addition, the model we have established shows a good prediction of the probability of 5-year overall survival of patients according to the c-index and calibration curve. Collectively, our data suggest that lncRNA SPRY4-IT1 may be a novel molecule involved in cervical cancer progression, which may be of use as both a potential predictor and therapeutic target.

Glycemic variability in normal glucose tolerance women with the previous gestational diabetes mellitus.

BACKGROUND: Women with previous gestational diabetes mellitus (pGDM) and postpartum normal glucose tolerance (NGT) may carry impaired islet ß cell secretion, insulin resistance and subsequent altered glucose homeostasis. And certain normoglycemic groups at risks of diabetes were presented with elevated glycemic variability. The aim of study was to investigate the glycemic variability in NGT women with pGDM. METHODS: Total 48 NGT women with pGDM (pGDM group) and 48 age- and BMI-matched NGT women without pGDM (control group) were recruited in the study. Integrated ß cell function was assessed with the Insulin Secretion-Sensitivity Index-2 (ISSI-2) derived from oral glucose tolerance test. All subjects were monitored using the continuous glucose monitoring system for consecutive 72 h. The multiple parameters of glycemic variability included the mean blood glucose (MBG), standard deviation of blood glucose (SDBG), mean of daily differences (MODD), mean amplitude of glycemic excursions (MAGE) and the incremental areas above preprandial glucose values (AUCpp). RESULTS: The pGDM group had a higher MBG (6.5 ± 0.9 vs. 5.9 ± 0.8 mmol/L, p < 0.05), SDBG (1.3 ± 0.3 vs. 0.9 ± 0.2 mmol/L, p < 0.05), MODD (1.4 ± 0.3 vs. 1.1 ± 0.2 mmol/L, p < 0.05), MAGE (2.7 ± 0.4 vs. 1.8 ± 0.5 mmol/L, p < 0.05), and AUCpp (26.8 ± 3.4 vs. 19.2 ± 3.2 mmol/L·h, p < 0.05), when compared to the control group, and the differences remained significant after adjusting for anthropometric indices and metabolic risk factors. Islet ß cell function index ISSI-2 in the pGDM group was lower than in the control group (p < 0.05). MBG, SDBG, MODD, MAGE and AUCpp were all negatively associated with ISSI-2 in the pGDM group (r = -0.31, -0.30, -0.34, -0.48 and -0.54, respectively, p < 0.05), and the correlations remained significant after adjusting for anthropometric indices and metabolic risk factors. CONCLUSIONS: Normal glucose tolerance women with pGDM were presented with elevated glycemic variability, which may be associated with impaired islet ß cell function.