Young Women’s Knowledge About Fertility and Their Fertility Health Risk Factors

Objective To explore the relationships among young women’s demographic characteristics, their self-perceived and actual knowledge about fertility, and their fertility health risk factors. Design A quantitative, cross-sectional study. Setting Online survey. Participants Young women between the ages of 18 and 24 years (N = 342). Methods We used an online survey to collect data from young women regarding their demographic characteristics, their self-perceived and actual knowledge about fertility, and their fertility health risk factors. We used multiple linear regression to explore the relationships among these factors. Results Participants were mainly White, had some form of college education, and used a variety of contraception methods. Regression modeling indicated that participants’ self-perceived knowledge and actual knowledge about fertility and their methods of contraception were significantly associated with their fertility health risks (R2 = .13, p \u3c .001). Participants who had higher actual scores of knowledge about fertility and who used fertility awareness methods had fewer self-reported fertility health risk factors. A greater level of self-perceived knowledge about fertility was associated with more fertility health risk factors. Age, education level, and pregnancy history were not significantly associated with fertility health risks. Conclusion Our findings provide evidence that knowledge about fertility is important to enhance fertility self-care for young women. The significant relationship between young women’s knowledge about fertility and their fertility health risks highlights the need to assess their knowledge and teach them about fertility as important components of preconception care. Such education may help them avoid fertility health risks and protect young women’s current and future fertility

The Impact of International Doctoral Capstone Experience on Occupational Therapy Clinicians\u27 Current Practice

The purpose of the study was to assess the impact of an international doctoral capstone on occupational therapy clinicians’ current practice. The study used a cross-sectional descriptive online survey design with qualitative elements with 26 occupational therapy graduates. All participants identified as female and the majority were 25-34 years old. Participants reported that the international doctorate capstone experience positively impacted their cultural competence and professional growth. Qualitative outcomes supported these findings through three themes on culture, building rapport with patients, and professional growth. This study suggests that an international doctoral capstone experience is an important way for occupational therapy students to be prepared to become culturally competent clinicians and advance their professional skills. Limitations of the study included a convenience sample of occupational therapy alumni who graduated from Creighton University and using a non-validated survey instrument. Future studies need to use a representative sample and examine the cultural competence and professional growth of occupational therapy students who did not complete an international capstone project

Physicochemical code for quinary protein interactions in Escherichia coli

This study shows that the diffusive motions of proteins in live cells are by no means without control but follow simplistic physical−chemical rules that can be quantified and optimized through surface composition. Most strikingly, human proteins are observed to stick to the “foreign” environment of bacterial cells, whereas the bacterial analogue moves around freely. Even so, the human proteins can predictably be transformed to bacterial behavior with a few structurally benign surface mutations, and, conversely, the bacterial protein can be made to stick. The findings have not only fundamental implications for how protein function is controlled at the physical−chemical level but can also be used to adjust protein motion in Escherichia coli at will

Regulation of INF2-mediated actin polymerization through site-specific lysine acetylation of actin itself

INF2 is a formin protein that accelerates actin polymerization. A common mechanism for formin regulation is autoinhibition, through interaction between the N-terminal diaphanous inhibitory domain (DID) and C-terminal diaphanous autoregulatory domain (DAD). We recently showed that INF2 uses a variant of this mechanism that we term "facilitated autoinhibition," whereby a complex consisting of cyclase-associated protein (CAP) bound to lysine-acetylated actin (KAc-actin) is required for INF2 inhibition, in a manner requiring INF2-DID. Deacetylation of actin in the CAP/KAc-actin complex activates INF2. Here we use lysine-to-glutamine mutations as acetylmimetics to map the relevant lysines on actin for INF2 regulation, focusing on K50, K61, and K328. Biochemically, K50Q- and K61Q-actin, when bound to CAP2, inhibit full-length INF2 but not INF2 lacking DID. When not bound to CAP, these mutant actins polymerize similarly to WT-actin in the presence or absence of INF2, suggesting that the effect of the mutation is directly on INF2 regulation. In U2OS cells, K50Q- and K61Q-actin inhibit INF2-mediated actin polymerization when expressed at low levels. Direct-binding studies show that the CAP WH2 domain binds INF2-DID with submicromolar affinity but has weak affinity for actin monomers, while INF2-DAD binds CAP/K50Q-actin 5-fold better than CAP/WT-actin. Actin in complex with full-length CAP2 is predominately ATP-bound. These interactions suggest an inhibition model whereby CAP/KAc-actin serves as a bridge between INF2 DID and DAD. In U2OS cells, INF2 is 90-fold and 5-fold less abundant than CAP1 and CAP2, respectively, suggesting that there is sufficient CAP for full INF2 inhibition.Peer reviewe

NOTCH1 can initiate NF-κB activation via cytosolic interactions with components of the T cell Signalosome.

T cell stimulation requires the input and integration of external signals. Signaling through the T cell receptor (TCR) is known to induce formation of the membrane-tethered CBM complex, comprising CARMA1, BCL10, and MALT1, which is required for TCR-mediated NF-κB activation. TCR signaling has been shown to activate NOTCH proteins, transmembrane receptors also implicated in NF-κB activation. However, the link between TCR-mediated NOTCH signaling and early events leading to induction of NF-κB activity remains unclear. In this report, we demonstrate a novel cytosolic function for NOTCH1 and show that it is essential to CBM complex formation. Using a model of skin allograft rejection, we show in vivo that NOTCH1 acts in the same functional pathway as PKCθ, a T cell-specific kinase important for CBM assembly and classical NF-κB activation. We further demonstrate in vitro NOTCH1 associates physically with PKCθ and CARMA1 in the cytosol. Unexpectedly, when NOTCH1 expression was abrogated using RNAi approaches, interactions between CARMA1, BCL10, and MALT1 were lost. This failure in CBM assembly reduced inhibitor of kappa B alpha phosphorylation and diminished NF-κB-DNA binding. Finally, using a luciferase gene reporter assay, we show the intracellular domain of NOTCH1 can initiate robust NF-κB activity in stimulated T cells, even when NOTCH1 is excluded from the nucleus through modifications that restrict it to the cytoplasm or hold it tethered to the membrane. Collectively, these observations provide evidence that NOTCH1 may facilitate early events during T cell activation by nucleating the CBM complex and initiating NF-κB signaling

Mutational analysis of the PLCE1 gene in steroid-resistant nephrotic syndrome

International audienceBackground: Mutations in the PLCE1 gene encoding phospholipase C epsilon 1 (PLCε1) have been recently described in patients with early-onset nephrotic syndrome (NS) and diffuse mesangial sclerosis (DMS). In addition, two cases of PLCE1 mutations associated with focal segmental glomerulosclerosis (FSGS) and later NS onset have been reported. Methods: In order to better assess the spectrum of phenotypes associated with PLCE1 mutations, we performed mutational analysis in a worldwide cohort of 139 patients (95 familial cases belonging to 68 families and 44 sporadic cases) with steroid-resistant NS presenting at a median age of 23.0 months (range 0-373). Results: We identified homozygous or compound heterozygous mutations in 33% (8/24) of DMS cases. PLCE1 mutations were found in 8% (6/78) of FSGS cases without NPHS2 mutations. Nine were novel mutations. No clear genotype-phenotype correlation was observed, with either truncating or missense mutations detected in both DMS and FSGS, and leading to a similar renal evolution. Surprisingly, 3 unaffected and unrelated individuals were also found to carry the homozygous mutations identified in their respective families. Conclusion: PLCE1 is a major gene of DMS and is mutated in a non-negligible proportion of FSGS cases without NPHS2 mutations. Although we did not identify additional variants in 19 candidate genes (16 other PLC genes, BRAF, IQGAP1 and NPHS1), we speculate that other modifier genes or environmental factors may play a role in the renal phenotype variability observed in individuals bearing PLCE1 mutations. This observation needs to be considered in the genetic counselling offered to patients

Cytotoxic Acetogenins from the Roots of Annona purpurea

Annona purpurea, known in Mexico as "cabeza de negro" or "ilama", belongs to the Annonaceae family. Its roots are employed in folk medicine in several regions of Mexico. Taking that information into account, a chemical and biological analysis of the components present in the roots of this species was proposed. Our results demonstrated that the dichloromethane (DCM) extract was exclusively constituted by a mixture of five new acetogenins named annopurpuricins A-E (1-5). These compounds have an aliphatic chain of 37 carbons with a terminal \u3b1,\u3b2 unsaturated \u3b3-lactone. Compounds 1 and 2 belong to the adjacent bis-THF (tetrahydrofuran) \u3b1-monohydroxylated type, while compounds 3 and 4 belong to the adjacent bis-THF \u3b1,\u3b1'-dihydroxylated type; only compound 5 possesses a bis-epoxide system. Complete structure analysis was carried out by spectroscopy and chemical methods. All compounds were evaluated for their antiproliferative activity on three human tumor cell lines (MSTO-211H, HeLa and HepG2). Compounds 1-4 inhibited significantly the growth of HeLa and HepG2 cells, showing GI50 values in the low/subnanomolar range, while 5 was completely ineffective under the tested conditions. The investigation of the mechanism of action responsible for cytotoxicity revealed for the most interesting compound 1 the ability to block the complex I activity on isolated rat liver mitochondria (RLM)