Mcgeeterkildsen0015

Toxic effects of lead (Pb) are principally manifested in the central nervous system (CNS) and a mounting body of evidence indicates that excessive chronic exposure to Pb participates in the pathological processes of numerous neurodegenerative disorders in humans.In this study we evaluated whether the prolonged pre- and postnatal exposure of rat pups to lead, administrated through ingestion in drinking water, as a typical environmental exposure, can determine alterations of the protein pattern of CNS myelin and the induction of myelin-associated proteinases. Pregnant dams were given distilled water or 0.3 mg/mL lead acetate in drinking water during gestation and lactation. At postnatal day (PND) 21, pups born from mothers poisoned with Pb continued the treatment with the metal. On PND 35 and 56, pups were sacrificed, and brains were subjected to myelin purification and extraction of myelin-associated proteinases. The SDS-PAGE analysis of protein pattern of myelin incubated in vitro with an oxidative system indicated that myelin proteins from Pb-treated pups were more sensitive to the toxicity of reactive oxygen species in comparison with those from untreated pups. The zymografic analysis of NaCl-extracts from myelin of Pb-treated pups showed a band of digestion of 54 kDa that increased in pups sacrificed at PND 56 in comparison with those sacrificed at PND 35 and correlated with the concentration of Pb, detected in purified myelin. The incubation of the NaCl-extract from Pb-treated pups with purified myelin basic protein (MBP) evidenced the presence of different MBP-degrading activities. These results suggest that Pb may influence the integrity of the myelin sheath, probably through the induction of anti-myelin proteinases.

Marsdenia tenacissima (Roxb.) Moon, (M. tenacissima) a traditional herbal medicine, has been used for thousands of years. It is noted in Dian Nan Ben Cao that M. tenacissima is bitter in flavor and cold in property, and extracts possess diverse pharmacological effects, including immunomodulation and anti-tumor activities.

The anti-tumor effects of M. tenacissima extracts (MTE) have been repeatedly confirmed, and this medicine has also been extensively applied in cancer treatment or prognostic adjuvant therapy, with significant curative effect. This study aims to comprehensively analyze the anti-tumor mechanism of M. tenacissima starting from the key features of traditional Chinese medicine and by studying the main active components individually to identify anti-tumor targets in the context of hepatocellular carcinoma.

Molecular network profiling and multi-omic joint analyses were conducted using an H22 mouse model of hepatocellular carcinoma to determine the main active ingredients in MTE and the underlying anti-tumor mechanisms.

Tenacissosides I, H, and G (TI,TH and TG) were found to be the likely active ingredients of MTE in the treatment of hepatocellular carcinoma. These compounds were shown to promote apoptosis, inhibit angiogenesis and improve immune function through targeting P53, JAK-1 and HIF1α, respectively.

For the first time, based on the theory that multiple components and multiple targets synergistically exert the beneficial effects of a traditional Chinese medicine, this paper comprehensively analyzes the mechanisms of action of M. tenacissima and provides a novel strategy for the subsequent development of anti-tumor therapies.

For the first time, based on the theory that multiple components and multiple targets synergistically exert the beneficial effects of a traditional Chinese medicine, this paper comprehensively analyzes the mechanisms of action of M. tenacissima and provides a novel strategy for the subsequent development of anti-tumor therapies.Mismatched human leukocyte antigen (HLA) loss is an essential mechanism involved in immune escape and recurrence in acute leukemia after haploidentical transplantation. Patients relapsing after transplantation with HLA loss have a poor prognosis, and are less likely to benefit from donor lymphocyte infusion (DLI) from the original donor. Here, we report a patient with high-risk acute myeloid leukemia who relapsed within six months after haploidentical peripheral blood stem cell transplantation (PBSCT) combined with unrelated umbilical cord blood (UCB) with a session of prophylactic DLI. This patient achieved transient remission after subsequent Interferon-α-1b treatment for two weeks but experienced a second relapse within one month. Genomic analysis by real-time PCR assay revealed that this patient had a loss of an entire mismatched HLA haplotype that was derived from her haploidentical donor. Haploidentical peripheral blood stem cell transplantation with prophylactic DLI might be a triggering event for HLA loss relapse after haploidentical transplantation combined with UCB. HLA loss should be considered in patients with post-HSCT relapse, especially in haploidentical transplantation.The molecular events responsible for decitabine responses in myelodysplastic syndrome and acute myeloid leukemia patients are poorly understood. Decitabine has a short serum half-life and limited stability in tissue culture. Therefore, theoretical pharmacologic differences may exist between patient molecular changes in vitro and the consequences of in vivo treatment. To systematically identify the global genomic and transcriptomic alterations induced by decitabine in vivo, we evaluated primary bone marrow samples that were collected during patient treatment and applied whole-genome bisulfite sequencing, RNA-sequencing, and single-cell RNA sequencing. Decitabine induced global, reversible hypomethylation after 10 days of therapy in all patients, which was associated with induction of interferon-induced pathways, the expression of endogenous retroviral elements, and inhibition of erythroid-related transcripts, recapitulating many effects seen previously in in vitro studies. However, at relapse after decitabine treatment, interferon-induced transcripts remained elevated relative to day 0, but erythroid-related transcripts now were more highly expressed than at day 0. Clinical responses were not correlated with epigenetic or transcriptional signatures, although sample size and interpatient variance restricted the statistical power required for capturing smaller effects. Collectively, these data define global hypomethylation by decitabine and find that erythroid-related pathways may be relevant because they are inhibited by therapy and reverse at relapse.Studies are needed to better understand the genomic evolution of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). learn more This study aimed to describe viral quasispecies population of upper and lower respiratory tract by next-generation sequencing in patients admitted to intensive care unit. A deep sequencing of the S gene of SARS-CoV-2 from 109 clinical specimens, sampled from the upper respiratory tract (URT) and lower respiratory tract (LRT) of 77 patients was performed. A higher incidence of non-synonymous mutations and indels was observed in the LRT among minority variants. This might be explained by the ability of the virus to invade cells without interacting with ACE2 (e.g. exploiting macrophage phagocytosis). Minority variants are highly concentrated around the gene portion encoding for the Spike cleavage site, with a higher incidence in the URT; four mutations are highly recurring among samples and were found associated with the URT. Interestingly, 55.8% of minority variants detected in this locus were T>G and G>T transversions. Results from this study evidenced the presence of selective pressure and suggest that an evolutionary process is still ongoing in one of the crucial sites of spike protein associated with the spillover to humans.Escherichia coli, a bacterium that causes severe foodborne diseases, is transmitted to humans primarily through the consumption of contaminated foods. These foodborne pathogens are causing a public health problem that requires alternative control approaches, such as bacteriophage (phage) biocontrol. In this study, we characterized vB_EcoM_Tw01 (vTw01) isolated from sewage and vB_EcoM_Tcm05 (vTcm05) isolated from chicken meat. Both vTw01 and vTcm05 were assigned to the family Myoviridae based on their morphology, with the former exhibiting a narrow host range with low minimum inhibitory multiplicity of infection (miMOI), and the latter exhibiting a broad host range with high miMOI. The latent periods of these phages were 20 and 30 min for vTw01 and vTcm05, while the burst sizes were ∼140 and ∼300 PFU/cell, respectively. They were relatively stable over a wide range of pH values and temperatures. The bioinformatics analysis of the genomic sequence suggests that vTw01 and vTcm05 have double-stranded DNA with genome sizes of 170,107 bp and 149,059 bp, respectively. Bacteriophage encoded enzymes, such as tail-lysozyme, spanin Rz, holin, cell wall hydrolase (CWH), and endolysin, were identified in the genome of both phages. In conclusion, this study investigated the morphological, physiological, and genomic features of two E. coli phages isolated from different sources. It was confirmed that these phages and their enzymes can serve as potential candidates for phage biocontrol.Avian influenza viruses (AIVs) circulating in wild ducks are rarely transmitted directly to chickens. Previous studies demonstrated that chickens possess fucosylated and/or sulfated α2,3 sialosides on their tracheal epithelia, whereas intestinal epithelia of ducks express canonical α2,3 sialosides. Turkeys, the third major poultry species in the world, are known to show broad susceptibility to various avian influenza viruses. To elucidate the molecular basis of the broad susceptibility of turkeys to duck and chicken AIVs, we characterized various receptors for AIVs on their tissues. The experimental infection of turkeys demonstrated their dual susceptibility to duck and chicken AIVs. Further, comprehensive histochemical analyses using lectins, anti-glycan antibodies, and recombinant hemagglutinins, combined with glycosidase digestions, identified the presence of fucosylated and/or sulfated in addition to canonical α2,3 sialosides on their respiratory epithelia. The receptor distributions in turkeys were consistent with their dual susceptibility to duck and chicken AIVs. Also, our findings suggested the potential roles of turkeys in interspecies transmission of AIVs from ducks to chickens.

To curtail the U.S. opioid crisis, many states have instituted regulations that mandate time and/or dosage limits for opioid prescriptions. This study evaluates the impact of one such law, Florida House Bill 21, on postoperative opioid prescribing patterns for patients undergoing total knee arthroplasty (TKA) and the durability of the law's impact over time.

All patients who underwent TKA at a single institution during the same three-month period in 2017 (pre-law), 2018 (post-law), and 2020 (2years post-law) were identified. Outcomes and measures included prescribed morphine milligram equivalents (MME) at discharge and for the 90-day surgical episode, refill quantity with associated MME, and quantity of opioid prescribers. Patients with established chronic pain or those who underwent contralateral TKA during the 90-day window were excluded. Data was compared using a one-way analysis of variance. Significance was set at alpha <0.05.

The average MME of filled opioid prescriptions per patient during the 90-day post-surgical episode decreased from 1310 MME in 2017 to 891 MME in 2018 (P < .