G019 Cholesterol depletion enhances Kv1.5-encoded K+ current by increasing Rab11-mediated recycling

Membrane lipid composition is a major determinant of protein organisation in the cell membrane. In a previous study, we reported that depletion of membrane cholesterol by methyl-fÒ-cyclodextrin (MCD) causes a marked increase in Kv1.5-current (Ikur) in neonatal cardiac myocytes. Here, we examined the mechanisms of the cholesterol effects on potassium current in adult rat cardiomyocytes (ARC). GFP-tagged Kv1.5 channels were transduced in ARC using adenoviral vectors and patch clamp experiments were performed to record whole-cell currents and single channel activity. Fluorescence recovery after photobleaching (FRAP) technique was used to investigate GFP-Kv1.5 channels mobility; 3D-epifluorescence microscopy was conducted to follow Kv1.5 channels trafficking.In both freshly isolated and cultured ARC over-expressing GFP-Kv1.5 channels, MCD induced a rapid (< 7min) increase in Ikur but not Ito. On the contrary, incubation with the cholesterol donor LDL reduced Ikur. Single channel experiments revealed that MCD application caused a progressive and drastic increase of the number of active channels. Moreover, FRAP experiments showed that MCD reduced both mobility and recovery of GFP-Kv1.5. Several steps of the trafficking process of ion channels were studied. Blocking SNARE-mediated exocytosis with N-ethylmaleimide prevented the MCD-effect on Ikur. While disruption of Golgi complex/secretion pathway with brefeldine-A had no effect, manipulation of GTP-ases activity with GTP-f×-S suppressed the MCD effect. Transfection with a dominant negative (DN) form of Rab11 effect but not Rab4 DN prevented the MCD. Moreover, Kv1.5 channels co-immunoprecipitated with Rab11 which is stringly expressed in myocardium and ARC (qPCR and western blot). Finally, 3D-microscopy evidenced that Kv1.5 channels association with Rab11-positive recycling endosomes observed in control condition disappeared following cholesterol depletion.ConclusionLowering cholesterol rapidly induces the insertion of Kv1.5 channels by a process that involves vesicle fusion and trafficking processes, particularly the Rab11-associated slow recycling pathway. Given the role of Kv1.5 channel in normal and pathological atrial electrical properties, this study opens news perspectives for therapeutic modulation of cardiac myocytes excitability

Feasibility of nanofluid-based optical filters

In this article we report recent modeling and design work indicating that mixtures of nanoparticles in liquids can be used as an alternative to conventional optical filters. The major motivation for creating liquid optical filters is that they can be pumped in and out of a system to meet transient needs in an application. To demonstrate the versatility of this new class of filters, we present the design of nanofluids for use as long-pass, short-pass, and bandpass optical filters using a simple Monte Carlo optimization procedure. With relatively simple mixtures, we achieve filters with &lt;15% mean-squared deviation in transmittance from conventional filters. We also discuss the current commercial feasibility of nanofluid-based optical filters by including an estimation of today&#039;s off-the-shelf cost of the materials. While the limited availability of quality commercial nanoparticles makes it hard to compete with conventional filters, new synthesis methods and economies of scale could enable nanofluid-based optical filters in the near future. As such, this study lays the groundwork for creating a new class of selective optical filters for a wide range of applications, namely communications, electronics, optical sensors, lighting, photography, medicine, and many more

Active growth signaling promotes senescence and cancer cell sensitivity to CDK7 inhibition

Tumor growth is driven by continued cellular growth and proliferation. Cyclin-dependent kinase 7’s (CDK7) role in activating mitotic CDKs and global gene expression makes it therefore an attractive target for cancer therapies. However, what makes cancer cells particularly sensitive to CDK7 inhibition (CDK7i) remains unclear. Here, we address this question. We show that CDK7i, by samuraciclib, induces a permanent cell-cycle exit, known as senescence, without promoting DNA damage signaling or cell death. A chemogenetic genome-wide CRISPR knockout screen identified that active mTOR (mammalian target of rapamycin) signaling promotes samuraciclib-induced senescence. mTOR inhibition decreases samuraciclib sensitivity, and increased mTOR-dependent growth signaling correlates with sensitivity in cancer cell lines. Reverting a growth-promoting mutation in PIK3CA to wild type decreases sensitivity to CDK7i. Our work establishes that enhanced growth alone promotes CDK7i sensitivity, providing an explanation for why some cancers are more sensitive to CDK inhibition than normally growing cells

The impact of loco-regional recurrences on metastatic progression in early-stage breast cancer: a multistate model

To study whether the effects of prognostic factors associated with the occurrence of distant metastases (DM) at primary diagnosis change after the incidence of loco-regional recurrences (LRR) among women treated for invasive stage I or II breast cancer. The study population consisted of 3,601 women, enrolled in EORTC trials 10801, 10854, or 10902 treated for early-stage breast cancer. Data were analysed in a multivariate, multistate model by using multivariate Cox regression models, including a state-dependent covariate. The presence of a LRR in itself is a significant prognostic risk factor (HR: 3.64; 95%-CI: 2.02-6.5) for the occurrence of DM. Main prognostic risk factors for a DM are young age at diagnosis (</=40: HR: 1.79; 95%-CI: 1.28-2.51), larger tumour size (HR: 1.58; 95%-CI: 1.35-1.84) and node positivity (HR: 2.00; 95%-CI: 1.74-2.30). Adjuvant chemotherapy is protective for a DM (HR: 0.66; 95%-CI: 0.55-0.80). After the occurrence of a LRR the latter protective effect has disappeared (P = 0.009). The presence of LRR in itself is a significant risk factor for DM. For patients who are at risk of developing LRR, effective local control should be the main target of therapy

A segmental genomic duplication generates a functional intron

An intron is an extended genomic feature whose function requires multiple constrained positions—donor and acceptor splice sites, a branch point, a polypyrimidine tract and suitable splicing enhancers—that may be distributed over hundreds or thousands of nucleotides. New introns are therefore unlikely to emerge by incremental accumulation of functional sub-elements. Here we demonstrate that a functional intron can be created de novo in a single step by a segmental genomic duplication. This experiment recapitulates in vivo the birth of an intron that arose in the ancestral jawed vertebrate lineage nearly half-a-billion years ago

Le FORUM, Vol. 39 No. 3

https://digitalcommons.library.umaine.edu/francoamericain_forum/1046/thumbnail.jp

Le Forum, Vol. 42 No. 2

https://digitalcommons.library.umaine.edu/francoamericain_forum/1095/thumbnail.jp

LIMPRINT in Australia

Background and study objective: Australia was one of nine participating countries in the epidemiology Phase II LIMPRINT project to determine the number of people with chronic oedema in local health services. Methods and results: Data collection occurred through questionnaire-based interviews and clinical assessment with provided LIMPRINT tools. Four different types of services across three states in Australia participated. A total of 222 adults participated with an age range from 22 to 102 years, and 60% were female. Site 1 included three residential care facilities (54% of participants had swelling), site 2 was community delivered aged care services (24% of participants had swelling), site 3 was a hospital setting (facility-based prevalence study) (28% of participants had swelling) and site 4 was a wound treatment centre (specific patient population) (100% of participants had swelling). Of those with chronic oedema or secondary lymphoedema 93% were not related to cancer, the lower limbs were affected in 51% of cases and 18% of participants with swelling reported one or more episodes of cellulitis in the previous year. Wounds were identified in 47% (n=105) of all participants with more than half of those with wounds coming from the dedicated wound clinic. Leg/foot ulcer was the most common type of wound (65% n=68). Conclusion: Distances between services, lack of specialised services and various state funding models contribute to inequities in CO treatment. Understanding the high number of non-cancer related chronic oedema presentations will assist health services to provide timely, effective care and improve referral pathways

HNRNPK is retained in the cytoplasm by Keratin 19 to stabilize target mRNAs

Heterogeneous nuclear ribonucleoprotein K (HNRNPK) regulates pre-mRNA processing and long non-coding RNA localization in the nucleus. It was previously shown that shuttling of HNRNPK to the cytoplasm promotes cell proliferation and cancer metastasis. However, the mechanism of HNRNPK cytoplasmic localization, its cytoplasmic RNA ligands, and impact on posttranscriptional gene regulation remain uncharacterized. Here we show that the intermediate filament protein Keratin 19 (K19) directly interacts with HNRNPK and sequesters it in the cytoplasm. Correspondingly, in K19 knockout breast cancer cells, HNRNPK does not localize in the cytoplasm, resulting in reduced cell proliferation. We mapped cytoplasmic HNRNPK target mRNAs using PAR-CLIP where transcriptome data to show that, in the cytoplasm, HNRNPK stabilizes target mRNAs bound to the 3’ untranslated region at the expected C-rich sequence elements. Furthermore, these mRNAs are typically involved in cancer progression and include the p53 signaling pathway that is dysregulated upon HNRNPK knockdown or K19 knockout. This study identifies how a cytoskeletal protein can directly regulate gene expression by controlling subcellular localization of RNA binding proteins to support pathways involved in cancer progression