Engelmarkussen0312

Restoration of hair follicle (HF) regenerative capacity is the cornerstone in tissue engineering for the loss of regenerative capacity during in vitro expansion of skin-derived precursors (SKPs). Microenvironmental cues facilitated tissue or organ regeneration offers a potential strategy to overcome this difficulty. In our previous work, plantar dermis matrix homogenate (PD) has been proved to induce sweat glands regeneration both in vivo and in vitro. Here, we found PD also restore regenerative capacity of culture impaired HF spheroids (IHFS). Further, followed by our previous iTRAQ results, the CTHRC1 was identified as a potential regulator in PD facilitated restorative effects in HF regeneration. Knockout of Cthrc1 impaired HF regenerative capacity in spheroids, decreased the diameter of HF in 28 postnatal days mice and shortened invagination of HF bud in 18 days of gestation mice. In IHFS and Cthrc1-/- spheroids, PD partially restored HF regenerative capacity while Cthrc1-/- PD (PDKO) has less or no effect. Taken together, PD is an effective microenvironmental cues for HF regenerative capacity restoration and CTHRC1 played an important role in HF regeneration.Pseudoalteromonas spp. are Gram-negative bacteria which are ubiquitous in marine environments. Our previous work found that there is a classic LuxI/LuxR-type quorum sensing (QS) system which was named YasI/YasR in Pseudoalteromonas sp. R3, but the factors that control QS in strain R3 are unclear yet. Here, we found that the deficiency of hfq encoding RNA chaperon Hfq down-regulated the transcription levels of yasI encoding acyl-homoserine lactones (AHLs) synthase and yasR encoding AHLs receptor in strain R3. The assay based on fusion reporter of yasI-lacZ showed that Hfq regulates the expression of yasR at both transcriptional and translational levels. In addition, Hfq affects the expression of yasI via yasR. Further analysis indicated that the 5'UTR region of yasR is necessary for Hfq to control QS. In addition, the deletion of hfq increases the unstability of the target yasR mRNA. Based on transcriptome sequencing and bioinformatic analysis together with molecular experiments, Hfq-dependent sRNA00002 was identified to be involved in positively regulating QS in Pseudoalternas sp. Navoximod R3. link2 It was found that sRNA00002 deficiency causes the decrease in expression of yasI and yasR, and thus abolishes the production of AHLs in strain R3. It was concluded that Hfq-dependent sRNA00002 regulates yasR expression by base-pairing with target yasR mRNA at 5'UTR region and altering the stability of yasR mRNA. Our work paves the way for understanding the regulation mechanism of Hfq-dependent sRNAs on QS in Pseudoalteromonas.

We evaluated the modified anterior midline approach and its efficacy for hyperextension bicondylar tibial plateau (HEBTP) fractures.

From 2015 to 2019, 18 patients with HEBTP fractures with just little posterior cortical displacement were treated using the modified anterior midline approach. The operative protocols are fully described in this article, and the following parameters articular step-off height (ASH), posterior tibial slope angle (pTSA), and medial tibial plateau angle (mTPA) were measured perioperatively and at the final follow-up. We also recorded the Rasmussen score and range of motion (ROM) to assess knee joint function at the final follow-up.

No complications, such as percutaneous nerve damage, infection, skin necrosis, and internal fixation breakage or loosening occurred perioperatively. The mean time for bony union was 13.7weeks, and the mean preoperative ASH of the anterior cortex was 4.49mm; this was restored to its normal height after surgery. The mean preoperative pTSA and mTPA were -5.89° and 81.69°, respectively, compared with 3.89° and 87.91°, respectively, postoperatively. Comparing the postoperative and final follow-up radiographs, there were no significant differences in ASH, pTSA, and mTPA (P<0.05). The average Rasmussen score was 27.2 (range, 23-29) at the final follow-up. Excellent results were achieved in 14 (77.8%) patients and good in 4 (22.2%) patients. The mean ROM in flexion was 123.2° and 2.9° in extension at the final follow-up.

This study suggested that the modified anterior midline approach is a reasonable alternative for HEBTP fracture repair.

This study suggested that the modified anterior midline approach is a reasonable alternative for HEBTP fracture repair.A composting experiment with sewage sludge and green waste was conducted to explore the effects of aeration directions (i.e., upward and downward) on static composting systems. The compost properties, including humification indexes and organic matter loss rate, and microbial diversity during the composting, were determined. Results showed that the downward aeration promoted the homogenization of temperature and moisture of the static composting system, thereby stimulating microbial metabolism and accelerating mineralization and humification. Microbial community profiles significantly changed among the composting phases. The humification dynamics were significantly correlated with the relative abundance of multiple microbial functional groups. However, no significant effects of aeration direction on the microbial community profiles were observed. The findings indicate that downward aeration is promising to improve the quality of static compost production, by stimulating microbial metabolism rather than altering microbial community profiles.The production of 1,3-propanediol (1,3-PDO) from glycerol was studied by GRAS and native 1,3-PDO producer, Lactobacillus reuteri DSM 20016. This strain ferments glucose with production of lactate, acetate, ethanol, and converts glycerol to 1,3-PDO using NADH generated by glucose metabolism. To improve 1,3-PDO production, alcohol dehydrogenases (ADH) were disrupted and 1,3-PDO oxidoreductases (PDOR) were overexpressed. Deletion of ADH (adh2) enhanced 1,3-PDO production yield on glucose by reducing ethanol synthesis, and overexpression of PDOR (pduQ) elevated 1,3-PDO production rate and cell growth rate. The strain with simultaneous adh2 deletion, pduQ overexpression (Δadh2pduQ++) could produce 687 mM 1,3-PDO with the yield of 1.2 ± 0.08 mol 1,3-PDO/mol glucose by fed-batch bioreactor cultivation in 48 h. However, the 1,3-PDO production rate was greatly reduced in the late period of bioreactor culture, mainly due to high lactate accumulation. This is the first report on rational metabolic engineering of L. reuteri for improved 1,3-PDO production.To explore the bioaugmentation of rumen cellulolytic bacteria (RCB) and activated carbon (AC) on thermophilic digestion of cornstalk, biochemical methane potential tests were carried out. Adding RCB or AC can improve methane production, while simultaneous existence of AC (10 g/L) and RCB (5%) obtained the best performance. The maximum cellulose degradation rate, methane production rate and methane yield were 66.92%, 32.2 L/(kgVS·d), and 144.9 L/kgVS, which increased by 30.23%, 51.17%, and 20.35% compared with control group. The cellulolytic and fermentative bacteria (Hydrogenispora), syntrophic acetate-oxidizing bacteria (norank_o_MBA03), and hydrogenotrophic Methanothermobacter were crucial for thermophilic digestion of cornstalk. The enhancement of AC was due to the enrichment of Hydrogenispora and Methanothermobacter, while RCB can increase the abundance of cellulolytic bacteria (Halocella and norank_o_M55-D21) and mixotrophic Methanosarcina. The synergetic effect of AC and RCB owing to the enriched cellulolytic bacteria, the enhanced syntrophic acetate oxidation and the concentrated carbon metabolic flow to methane.Plant endoplasmic reticulum (ER) remodelling is likely to be important for its function in targeted protein secretion, organelle interaction and signal exchange. It has been known for decades that the structure and movement of the ER network is mainly regulated by the actin cytoskeleton through actin motor proteins and membrane-cytoskeleton adaptors. link3 Recent discoveries also revealed alternative pathways that influence ER movement, through a microtubule-based machinery. Therefore, plants utilize both cytoskeletal components to drive ER dynamics, a process that is likely to be dependent on the cell type and the developmental stages. On the other hand, the ER membrane also has a direct effect towards the organization of the cytoskeletal network and disrupting the tethering factors at the ER-PM interface also rearranges the cytoskeletal structure. However, the influence of the ER network on the cytoskeleton organization has not been studied. In this review, we will provide an overview of the ER-cytoskeleton network in plants, and discuss the most recent discoveries in the field.

Patients with thalassemia encounter increased consumption of zinc (Zn) and copper (Cu) from chronic hemolysis and increased excretion from iron chelation. Iron-enriched diet restriction may result in low Zn and Cu intakes. Recent data on Zn and Cu status among Thai pediatric patients with thalassemia are lacking. This study aimed to identify frequencies and determine risk factors of Zn and Cu deficiencies among patients with thalassemia.

Patients with transfusion-dependent thalassemia (TDT) receiving iron chelation ≥12 months and nonTDT (NTDT) aged 2-20 years were recruited. Serum Zn and Cu were measured. Dietary intakes were ascertained by interviews.

A total of 209 patients (TDT = 126, NTDT = 83) were enrolled. Zn deficiency seemed to be associated with disease severity as median (IQR) Zn level of TDT was lower than that of NTDT [77 (69-85) vs. 80 (72-88) mcg/dL, p = 0.05], while higher frequency of Zn deficiency was identified in the former (24 % vs. 14 %). In TDT, Zn deficiency was associated with patients >10 years (OR 4.6; 95 %CI 1.1-6.4, p = 0.03), which likely resulted from combined low dietary Zn intake, prolonged exposures to hemolysis and iron chelators. Frequencies of Cu deficiency were similarly low in TDT and NTDT (8% and 7%) with comparable median (IQR) Cu levels of 103 (90-124) and 110 (92-132) mcg/dL, respectively (p = 0.13). Cu levels were inversely associated with age (r=-0.65 and r=-0.62 in TDT and NTDT, respectively; p < 0.001).

Compared with younger patients, Zn and Cu deficiencies were more common among patients with thalassemia >10 years. Age was a major factor associated with both Zn and Cu deficiencies.

10 years. Age was a major factor associated with both Zn and Cu deficiencies.

Testosterone can improve glucose metabolism through multiple cellular mechanisms. However, it remains unclear as to whether hypogonadal men with type 2 diabetes mellitus (T2DM) can benefit from testosterone replacement therapy (TRT).

To assess the relative effect of TRT on glycolipid metabolism among hypogonadal men with T2DM.

Electronic literature searches of the Cochrane Library, PubMed, MEDLINE, and EMBASE databases were conducted, up to the end of October 2020. Only studies that used randomized controlled trials (RCTs) were included in our systematic review. Main outcome measures From these studies, we extracted certain outcomes including changes in insulin resistance, glucose metabolism, and lipid parameters.

There were a total of 8 studies that met our criteria. Four of these studies either did not have a consistent treatment strategy, or the control groups used untreated patients rather than patients that had been given a placebo. Thus, results from these four studies contributed to the variability in treatment outcomes.