The Tour Service Coach Drivers (Mainly Serving Tourists) Support Scheme, under the second round of the Anti-epidemic Fund, is open for applications from today to June 5, the Government announced.

The scheme will provide each tour service coach driver with a one-off subsidy of $10,000 and aims to benefit about 9,300 drivers.

In addition, the Government explained that the second round of the Anti-epidemic Fund includes other tourism industry support measures. 

Applications for the Hotel Sector Support Scheme are being accepted until May 18, while the deadline to apply for the Travel Agents & Practitioners Support Scheme is June 15.

Click here for more details.

The Government will launch the Subsidy Scheme for Beauty Parlours, Massage Establishments & Party Rooms under the second round of the Anti-epidemic Fund on May 11.

A sum of $1.1 billion has been earmarked for the scheme, which is expected to benefit 12,400 beauty parlours and massage establishments as well as 500 party rooms.

The subsidy is expected to be disbursed from late this month.

Under the scheme, each eligible beauty parlour or massage establishment will receive a one-off tiered subsidy of $30,000, $60,000 or $100,000, depending on its number of workers.

Each eligible party room will receive a one-off subsidy of $40,000.

Applications will only be accepted online. The application deadline is May 17.

The scheme also covers premises which are operated by social enterprises.

For premises with business registration, social enterprise operators should file their applications through the online application system.

Those without business registration should directly approach the Hong Kong Council of Social Service at 2864 2993 or by email to obtain its certification and submit their applications.

Call 1836 188 or send an email for enquiries.

The Immigration Department announced today that the operation of all nine Smart Identity Card Replacement Centres will be fully resumed on May 11 in light of the more stabilised epidemic situation.

The department earlier suspended the replacement of Hong Kong identity cards at the centres to avoid the increased risk of spreading COVID-19.

To arrange for people affected by the service suspension to replace their identity cards in an orderly manner, the Secretary for Security has made an amendment order to revise the replacement period for people born in 1957 to 1963 and 1970 to 1976 and the arrangement for members of the sixth term of District Councils.

Click here for the arrangements.

If the replacement of identity cards needs to be suspended again in the future to cope with a sudden turn of the epidemic situation, the amendment order also provides that if all the centres are not in service for a period of 21 working days or more from May 11 to July 27 for public health reasons, the specified period for the above people will be further extended or amended.

The amendment order will be tabled at the Legislative Council on May 13 for negative vetting.

To reduce crowd gatherings, applicants who have not made appointments previously should do so via the Internet, the department’s mobile application or the 24-hour hotline at 2121 1234.

The department also appealed to applicants to pre-fill the application form when making appointments through the Internet or mobile application.

For details click here or call 2824 6111.

Chief Secretary Matthew Cheung today chaired the Anti-epidemic Fund Steering Committee's fifth meeting to examine the implementation progress of the host of measures launched under the fund.

The committee noted the details of over 20 second-round relief measures have been announced since the Legislative Council Finance Committee approved the $120.5 billion injection to the fund on April 18.

Other measures will be launched as soon as possible to provide timely relief to the affected sectors and individuals. 

The committee also noted that the fund has paid out over $13 billion, and many businesses and members of the public have gradually received subsidies.

Mr Cheung said the measures aim to preserve employment and assist the self-employed, provide additional relief to those sectors hard hit by the pandemic and pave the way for the post-pandemic economic recovery. 

“We will continue to process applications and disburse subsidies as soon as possible to help businesses and members of the public tackle the challenges caused by the pandemic and to support enterprises, safeguard jobs and relieve people’s burden," he stressed. 

For the Retail Sector Subsidy Scheme which provides a one-off subsidy of $80,000 to eligible retailers, about 93,000 applications were received.

The committee was pleased to note that the scheme has been disbursing subsidies progressively and over $2.7 billion in subsidies have been approved so far, involving about 33,000 applications.

17 individuals in the mathematical sciences are among the 126 new members and foreign associates elected to the National Academy of Sciences (NAS) in 2020.

Members: Ivet Bahar, University of Pittsburgh School of Medicine; Abhijit Banerjee, Massachusetts Institute of Technology; Gerard Ben Arous, Courant Institute of Mathematical Sciences, New York University; Bonnie Berger, Massachusetts Institute of Technology; Laura G. DeMarco, Northwestern University; Ronald Fagin, IBM Almaden Research Center; Katherine Freese, The University of Texas at Austin; Dennis Gaitsgory, Harvard University; Robert L. Griess, University of Michigan, Ann Arbor; Jacob Lurie, Institute for Advanced Study; Terence T. Hwa, University of California, San Diego; Wilfried Schmid, Harvard University; Jeffrey D. Ullman, Stanford University; Lai-Sang Young, Courant Institute of Mathematical Sciences, New York University; and Ofer Zeitouni, Weizmann Institute of Science; Foreign Associates: Yoav Benjamini, Tel Aviv University (Israel) and Jürg Fröhlich, ETH Zurich (Switzerland). Berger, DeMarco, Griess, Schmid, and Zeitouni are members of the AMS and Fellows of the AMS. Fagin is a member of the AMS.

The NAS recognizes achievement in science by election to membership, and—along with the National Academy of Engineering and the National Academy of Medicine—provides science, engineering, and health policy advice to the federal government and other organizations. See the full list of this year's honorees. (Image courtesy of the National Academy of Sciences.)

(University of Southampton) Scientists have published highly detailed images of lab-grown neurons using Extreme Ultraviolet radiation that could aid the analysis of neurodegenerative diseases.

(Arizona State University) Cun-Zheng Ning, a professor of electrical engineering in the Ira A. Fulton Schools of Engineering at Arizona State University, and collaborators from Tsinghua University in China discovered a process of physics that enables low-power nanolasers to be produced in 2D semiconductor materials. Understanding the physics behind lasers at nanoscale and how they interact with semiconductors can have major implications for high-speed communication channels for supercomputers and data centers.

(To watch the full press conference with sign language interpretation, click here.)

Chief Executive Carrie Lam today said because Hong Kong has not reported a local COVID-19 case for over two weeks and imported cases are low, some anti-epidemic measures can be lifted.

During a press conference, Mrs Lam outlined that unlike some European countries, Hong Kong did not need to go into lockdown to contain the spread of the disease.

“Hong Kong has never gone into a stage of a complete city lockdown. In some of the European countries where they practise a city lockdown, residents are simply not allowed to leave their homes, except for some very essential purposes. But we have never adopted that practice.

“And in fact, many renowned experts are now trying to study our situation - why does Hong Kong succeed in keeping the confirmed cases at a low level without drastic measures like a complete city lockdown. And I do think that is a very interesting topic for further research.”

Mrs Lam noted that the Government had adopted the “suppress and lift” strategy under which restrictions are implemented and lifted in accordance with the infection situation.

“The strategy that Hong Kong has been adopting - and advocated by some of our experts - is what we call a ‘suppress and lift strategy’.

“So in light of the number of confirmed cases and likelihood of the spread of the disease in the community, we will have to suppress in order to make sure that there will be no surge in the number of confirmed cases as we have seen in some neighbouring regions.

“When the situation of the infection stabilises, that is the time for lifting, that is, loosening a bit so that society can operate more normally, especially for the businesses and for individuals’ behaviour.”

The Chief Executive said the Government still needed to monitor the COVID-19 situation closely, even though it was in the stage of lifting restrictions.

“We are now right in the stage of lifting because we have not had a local case for 16 days already and the number of imported cases is very, very low.

“We are now quite confident that the system of testing and holding that we have put in place for all arrivals from overseas would enable us to control the number of imported cases. So this is a time for lifting and this afternoon we have announced a number of lifting measures.

“If the situation continues to stay at the current level - no local cases, very few imported cases - then at the end of the 14-day period, that is May 22, of course that would be the time for more relaxation.”

Mrs Lam added that if a local case suddenly surfaced, Hong Kong may have to go back to some suppression measures, which was why the Government had to monitor the situation closely so it could take the necessary and pertinent response measures.

Premises can still operate other licensed businesses which are not required to be suspended if they were operating more than one licensed business before the closure, the Food & Health Bureau said today.

The bureau made the statement in response to media enquiries on some anti-epidemic measures which were relaxed from today.

The statement noted that in accordance with the Prevention & Control of Disease (Requirements & Directions) (Business & Premises) Regulation, the Secretary for Food & Health has issued directions by notices in the Gazette that certain scheduled premises, namely karaoke establishments, clubs or nightclubs, party rooms and bathhouses, should remain closed until May 21.

These scheduled premises may still operate other licensed businesses if the operators have implemented all measures to effectively stop or avoid operation of businesses and offering services which are required to be suspended.

For example, premises originally operated as karaoke establishments and catering businesses can continue their catering business in accordance with the relevant directions if all karaoke operation and services are suspended.

The directions state that facilities, installations and equipment for karaoke activities are closed or properly sealed off and notices are posted in prominent locations at the entrances clearly indicating that only catering services but no karaoke services are provided in the premises.

Other scheduled premises operating more than one licensed business can adopt similar measures to operate other licensed businesses which are not required to be suspended, the bureau added.

More than 8,200 applications for the Anti-epidemic Support Scheme for Property Management Sector (ASPM) have been received, with over 3,850 approved, the Government announced today.

The approved applications involve subsidies of more than $140 million and will benefit around 22,000 building blocks and about 35,750 frontline property management workers.

Launched under the Anti-epidemic Fund, the ASPM provides subsidies to owners' organisations or property management companies of eligible buildings to provide hardship allowance to frontline property management workers.

It also provides the Anti-epidemic Cleansing Subsidy to owners' organisations or property management companies.

The scheme’s first phase covers private residential and composite buildings, while its second phase covers industrial and commercial buildings.

The ASPM is still open for applications and continues to disburse subsidies.

Contact the Property Management Services Authority at 3696 1156 or 3696 1166, or visit its website for details.

"In his new book--The Math of Life & Death: 7 Mathematical Principles that Shape Our Lives--mathematician Kit Yates makes complex mathematical concepts easily accessible to anyone, and which can improve decision making in an increasingly quantitative society. In this Q&A, Yates discusses why math is relevant to everyday life." See "Mathematician Kit Yates on Anti Vaxxer Movement, Air Travel Germs and Samoa's Measles Outbreak," by Meredith Wold Schizer, Newsweek, December 23, 2019.

"[W]hen the editors at Quanta Magazine invited me to host a podcast for them, I jumped at the chance...Through this podcast, I've been learning about the inner lives of some of the most intriguing mathematicians and scientists working today. [I]n every case, I wanted to know what makes them tick. I wanted to know why they do what they do, what they’ve discovered, and why it matters to them and to the world." Read "Why I'm Hosting The Joy of x Podcast," by Steven Strogatz, Quanta Magazine, January 14, 2020.

Emily Riehl, Johns Hopkins University, received the university's $250,000 President's Frontier Award, whose purpose is to nurture individuals at Johns Hopkins University who are breaking new ground and poised to become leaders in their field. Riehl studies category theory and says that "I just thought the proofs were the most beautiful of any of the other areas I've encountered. ... It was sort of love at first sight and I am lucky to be able to do what I love." The award is considered a "$250,000 investment in doing more of what she loves."

Also see and hear this coverage: "Johns Hopkins Mathematician from B-N [Bloomington-Normal, IL] Breaks Barriers and Wins Research Grant, by Jolie Sherman, WGLT, February 27, 2020.

The 2020 Mathematical Art Exhibition Awards were made at the Joint Mathematics Meetings last week "for aesthetically pleasing works that combine mathematics and art." The chosen works were selected from the exhibition of juried works in various media by over 90 mathematicians and artists from around the world.

"Suspended Helical Stair," by Mark Donohue (California College of the Arts, San Francisco, CA), was awarded Best textile, sculpture, or other medium. "A unique cable system to suspend a stair was developed in collaboration with a leading structural engineer. The suspended cables form a double helicoid nested within an ascending spiral hyperboloid to create the necessary points of support for the gravity loads and lateral bracing for the seismic loads. Each concrete stair tread was designed as an independent element that is strung together with the stairs above and below it to form a single spiral stair when the steel cables that run through them are post tensioned. The entire stair tread and suspension cable system can be understood as a play of ruled surfaces with each part related to the other through their shared geometric lineage." The work is string and plywood,45 x 23 x 23 cm, 2018.

2018

"A Unit Domino," by Douglas McKenna (Mathemaesthetics, Inc., Boulder, CO), was awarded Best photograph, painting, or print. "This piece is based upon an artist-discovered "half-domino" space-filling curve. The drawing comprises some half-million connected line segments, arranged in two perfectly recursive levels of double-spiral pairs, slowly changing color, in a single, over-one-mile-long self-avoiding path from lower left to lower right (the lower right square that sticks out is an integral part of its self-negative structure). The limiting curve covers a self-similar gasket tile with an infinitely long, almost-everywhere linear border. With an upside-down copy of itself, two such gaskets of unit area exactly cover a 1x2 domino, without overlap. The artist's app/eBook "Hilbert Curves" for iPad/iPhone explains how he discovered these beautiful constructions." The work is a glicée print,106 x 66 cm, 2015.

"Computational Wings," by David Bachman (Pitzer College, Claremont, CA), received Honorable Mention. "The body of this dragonfly is taken from a photograph, while the wings were computationally generated. A variety of algorithms were used to create them. First, a set of points were randomly populated across each wing and moved by a circle packing algorithm, where the radius of each circle was inversely proportional to the distance from the body. Next, those points were used to create a Voronoi diagram. Main veins were located by a shortest walk algorithm through the edges of this diagram, and those veins were given a variable thickness according to the distance travelled as you traverse them outward from the body." The work is laser etched acrylic, 23 x 35 x 3 cm, 2019.

(Click on the thumbnails to see larger versions of the images.)

The Mathematical Art Exhibition Award "for aesthetically pleasing works that combine mathematics and art" was established in 2008 through an endowment provided to the American Mathematical Society by an anonymous donor who wishes to acknowledge those whose works demonstrate the beauty and elegance of mathematics expressed in a visual art form. The awards are $400 for Best photograph, painting, or print; $400 for Best textile, sculpture, or other medium; and $200 for Honorable Mention. The Mathematical Art Exhibition of juried works in various media is held at the annual Joint Mathematics Meetings of the American Mathematical Society (AMS) and Mathematical Association of America (MAA). a gallery of works in the 2020 exhibition will be on AMS Mathematical Imagery.

Find out more about the Mathematical Art Exhibition Award and see past recipients.

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The American Mathematical Society is dedicated to advancing research and connecting the diverse global mathematical community through our publications, meetings and conferences, MathSciNet, professional services, advocacy, and awareness programs.

IntroductionThe nucleolus is the central organelle within eukaryotic cells whose primary function is to generate ribosomes, the major protein producing machines within all cells. New roles for the nucleolus are continuously emerging as we explore its molecular intricacies. Despite the central and fundamental role of the nucleolus in cell biology, there has previously been no single official meeting that enables the gathering of scientists whose research converges on the nucleolus. As a result, the community of researchers who study this organelle risks fragmentation across disciplines. The Emerging Roles for the Nucleolus Symposium, which has now taken place twice on a biennial basis, first in 2017 (1) and again in 2019, therefore, represents the first of its kind. The overarching goals of this symposium are (a) to convene researchers who study the nucleolus across model systems (yeast, nematodes, fruit flies, mouse, human cell lines) and biological perspectives (structural, biophysical, molecular, cellular, pathophysiology), (b) to share and disseminate the latest research breakthroughs in nucleolar biology, (c) to promote interaction, engagement, and collaboration centered on the nucleolus across disciplines, and (d) to provide trainees and early career investigators with an organelle-specific scientific community of support.The second Emerging Roles for the Nucleolus meeting was sponsored by the American Society for Biochemistry and Molecular Biology and was held at the Stowers Institute for Medical Research in Kansas City, MO, from October 24 to October 27, 2019. It was organized by Jennifer Gerton (Stowers Institute), Francesca Duncan (Northwestern University Feinberg School of Medicine), and Craig Pikaard...

Previous studies have shown that sphingosine kinase interacting protein (SKIP) inhibits sphingosine kinase (SK) function in fibroblasts. SK phosphorylates sphingosine producing the potent signaling molecule sphingosine-1-phosphate (S1P). SKIP gene (SPHKAP) expression is silenced by hypermethylation of its promoter in acute myeloid leukemia (AML). However, why SKIP activity is silenced in primary AML cells is unclear. Here, we investigated the consequences of SKIP down-regulation in AML primary cells and the effects of SKIP re-expression in leukemic cell lines. Using targeted ultra-HPLC-tandem MS (UPLC-MS/MS), we measured sphingolipids (including S1P and ceramides) in AML and control cells. Primary AML cells had significantly lower SK activity and intracellular S1P concentrations than control cells, and SKIP-transfected leukemia cell lines exhibited increased SK activity. These findings show that SKIP re-expression enhances SK activity in leukemia cells. Furthermore, other bioactive sphingolipids such as ceramide were also down-regulated in primary AML cells. Of note, SKIP re-expression in leukemia cells increased ceramide levels 2-fold, inactivated the key signaling protein extracellular signal-regulated kinase, and increased apoptosis following serum deprivation or chemotherapy. These results indicate that SKIP down-regulation in AML reduces SK activity and ceramide levels, an effect that ultimately inhibits apoptosis in leukemia cells. The findings of our study contrast with previous results indicating that SKIP inhibits SK function in fibroblasts and therefore challenge the notion that SKIP always inhibits SK activity.

Telomeres are specific nucleoprotein structures that are located at the ends of linear eukaryotic chromosomes and play crucial roles in genomic stability. Telomere DNA consists of simple repeats of a short G-rich sequence: TTAGGG in mammals and TTTAGGG in most plants. In recent years, the mammalian telomeric G-rich repeats have been shown to form G-quadruplex (G4) structures, which are crucial for modulating telomere functions. Surprisingly, even though plant telomeres are essential for plant growth, development, and environmental adaptions, only few reports exist on plant telomeric G4 DNA (pTG4). Here, using bulk and single-molecule assays, including CD spectroscopy, and single-molecule FRET approaches, we comprehensively characterized the structure and dynamics of a typical plant telomeric sequence, d[GGG(TTTAGGG)3]. We found that this sequence can fold into mixed G4s in potassium, including parallel and antiparallel structures. We also directly detected intermediate dynamic transitions, including G-hairpin, parallel G-triplex, and antiparallel G-triplex structures. Moreover, we observed that pTG4 is unfolded by the AtRecQ2 helicase but not by AtRecQ3. The results of our work shed light on our understanding about the existence, topological structures, stability, intermediates, unwinding, and functions of pTG4.

Pyruvate kinase muscle isoform 2 (PKM2) is a key glycolytic enzyme involved in ATP generation and critical for cancer metabolism. PKM2 is expressed in many human cancers and is regulated by complex mechanisms that promote tumor growth and proliferation. Therefore, it is considered an attractive therapeutic target for modulating tumor metabolism. Various stimuli allosterically regulate PKM2 by cycling it between highly active and less active states. Several small molecules activate PKM2 by binding to its intersubunit interface. Serine and cysteine serve as an activator and inhibitor of PKM2, respectively, by binding to its amino acid (AA)-binding pocket, which therefore represents a potential druggable site. Despite binding similarly to PKM2, how cysteine and serine differentially regulate this enzyme remains elusive. Using kinetic analyses, fluorescence binding, X-ray crystallography, and gel filtration experiments with asparagine, aspartate, and valine as PKM2 ligands, we examined whether the differences in the side-chain polarity of these AAs trigger distinct allosteric responses in PKM2. We found that Asn (polar) and Asp (charged) activate PKM2 and that Val (hydrophobic) inhibits it. The results also indicate that both Asn and Asp can restore the activity of Val-inhibited PKM2. AA-bound crystal structures of PKM2 displayed distinctive interactions within the binding pocket, causing unique allosteric effects in the enzyme. These structure-function analyses of AA-mediated PKM2 regulation shed light on the chemical requirements in the development of mechanism-based small-molecule modulators targeting the AA-binding pocket of PKM2 and provide broader insights into the regulatory mechanisms of complex allosteric enzymes.

β-1,3-d-Glucan is a ubiquitous glucose polymer produced by plants, bacteria, and most fungi. It has been used as a diagnostic tool in patients with invasive mycoses via a highly-sensitive reagent consisting of the blood coagulation system of horseshoe crab. However, no method is currently available for measuring β-1,6-glucan, another primary β-glucan structure of fungal polysaccharides. Herein, we describe the development of an economical and highly-sensitive and specific assay for β-1,6-glucan using a modified recombinant endo-β-1,6-glucanase having diminished glucan hydrolase activity. The purified β-1,6-glucanase derivative bound to the β-1,6-glucan pustulan with a KD of 16.4 nm. We validated the specificity of this β-1,6-glucan probe by demonstrating its ability to detect cell wall β-1,6-glucan from both yeast and hyphal forms of the opportunistic fungal pathogen Candida albicans, without any detectable binding to glucan lacking the long β-1,6-glucan branch. We developed a sandwich ELISA-like assay with a low limit of quantification for pustulan (1.5 pg/ml), and we successfully employed this assay in the quantification of extracellular β-1,6-glucan released by >250 patient-derived strains of different Candida species (including Candida auris) in culture supernatant in vitro. We also used this assay to measure β-1,6-glucan in vivo in the serum and in several organs in a mouse model of systemic candidiasis. Our work describes a reliable method for β-1,6-glucan detection, which may prove useful for the diagnosis of invasive fungal infections.

The actin cytoskeleton is extremely dynamic and supports diverse cellular functions in many physiological and pathological processes, including tumorigenesis. However, the mechanisms that regulate the actin-related protein 2/3 (ARP2/3) complex and thereby promote actin polymerization and organization in cancer cells are not well-understood. We previously implicated the proline-rich 11 (PRR11) protein in lung cancer development. In this study, using immunofluorescence staining, actin polymerization assays, and siRNA-mediated gene silencing, we uncovered that cytoplasmic PRR11 is involved in F-actin polymerization and organization. We found that dysregulation of PRR11 expression results in F-actin rearrangement and nuclear instability in non-small cell lung cancer cells. Results from molecular mechanistic experiments indicated that PRR11 associates with and recruits the ARP2/3 complex, facilitates F-actin polymerization, and thereby disrupts the F-actin cytoskeleton, leading to abnormal nuclear lamina assembly and chromatin reorganization. Inhibition of the ARP2/3 complex activity abolished irregular F-actin polymerization, lamina assembly, and chromatin reorganization due to PRR11 overexpression. Notably, experiments with truncated PRR11 variants revealed that PRR11 regulates F-actin through different regions. We found that deletion of either the N or C terminus of PRR11 abrogates its effects on F-actin polymerization and nuclear instability and that deletion of amino acid residues 100–184 or 100–200 strongly induces an F-actin structure called the actin comet tail, not observed with WT PRR11. Our findings indicate that cytoplasmic PRR11 plays an essential role in regulating F-actin assembly and nuclear stability by recruiting the ARP2/3 complex in human non-small cell lung carcinoma cells.

Heme-regulatory motifs (HRMs) are present in many proteins that are involved in diverse biological functions. The C-terminal tail region of human heme oxygenase-2 (HO2) contains two HRMs whose cysteine residues form a disulfide bond; when reduced, these cysteines are available to bind Fe3+-heme. Heme binding to the HRMs occurs independently of the HO2 catalytic active site in the core of the protein, where heme binds with high affinity and is degraded to biliverdin. Here, we describe the reversible, protein-mediated transfer of heme between the HRMs and the HO2 core. Using hydrogen-deuterium exchange (HDX)-MS to monitor the dynamics of HO2 with and without Fe3+-heme bound to the HRMs and to the core, we detected conformational changes in the catalytic core only in one state of the catalytic cycle—when Fe3+-heme is bound to the HRMs and the core is in the apo state. These conformational changes were consistent with transfer of heme between binding sites. Indeed, we observed that HRM-bound Fe3+-heme is transferred to the apo-core either upon independent expression of the core and of a construct spanning the HRM-containing tail or after a single turnover of heme at the core. Moreover, we observed transfer of heme from the core to the HRMs and equilibration of heme between the core and HRMs. We therefore propose an Fe3+-heme transfer model in which HRM-bound heme is readily transferred to the catalytic site for degradation to facilitate turnover but can also equilibrate between the sites to maintain heme homeostasis.

Treatment of patients with chronic lymphocytic leukemia (CLL) with inhibitors of Bruton's tyrosine kinase (BTK), such as ibrutinib, is limited by primary or secondary resistance to this drug. Examinations of CLL patients with late relapses while on ibrutinib, which inhibits BTK's catalytic activity, revealed several mutations in BTK, most frequently resulting in the C481S substitution, and disclosed many mutations in PLCG2, encoding phospholipase C-γ2 (PLCγ2). The PLCγ2 variants typically do not exhibit constitutive activity in cell-free systems, leading to the suggestion that in intact cells they are hypersensitive to Rac family small GTPases or to the upstream kinases spleen-associated tyrosine kinase (SYK) and Lck/Yes-related novel tyrosine kinase (LYN). The sensitivity of the PLCγ2 variants to BTK itself has remained unknown. Here, using genetically-modified DT40 B lymphocytes, along with various biochemical assays, including analysis of PLCγ2-mediated inositol phosphate formation, inositol phospholipid assessments, fluorescence recovery after photobleaching (FRAP) static laser microscopy, and determination of intracellular calcium ([Ca2+]i), we show that various CLL-specific PLCγ2 variants such as PLCγ2S707Y are hyper-responsive to activated BTK, even in the absence of BTK's catalytic activity and independently of enhanced PLCγ2 phospholipid substrate supply. At high levels of B-cell receptor (BCR) activation, which may occur in individual CLL patients, catalytically-inactive BTK restored the ability of the BCR to mediate increases in [Ca2+]i. Because catalytically-inactive BTK is insensitive to active-site BTK inhibitors, the mechanism involving the noncatalytic BTK uncovered here may contribute to preexisting reduced sensitivity or even primary resistance of CLL to these drugs.

VOLUME 295 (2020) PAGES 1898–1914Yichen Zhong's name was misspelled. The correct spelling is shown above.

T-type (Cav3) Ca2+ channels are important regulators of excitability and rhythmic activity of excitable cells. Among other voltage-gated Ca2+ channels, Cav3 channels are uniquely sensitive to oxidation and zinc. Using recombinant protein expression in HEK293 cells, patch clamp electrophysiology, site-directed mutagenesis, and homology modeling, we report here that modulation of Cav3.2 by redox agents and zinc is mediated by a unique extracellular module containing a high-affinity metal-binding site formed by the extracellular IS1–IS2 and IS3–IS4 loops of domain I and a cluster of extracellular cysteines in the IS1–IS2 loop. Patch clamp recording of recombinant Cav3.2 currents revealed that two cysteine-modifying agents, sodium (2-sulfonatoethyl) methanethiosulfonate (MTSES) and N-ethylmaleimide, as well as a reactive oxygen species–producing neuropeptide, substance P (SP), inhibit Cav3.2 current to similar degrees and that this inhibition is reversed by a reducing agent and a zinc chelator. Pre-application of MTSES prevented further SP-mediated current inhibition. Substitution of the zinc-binding residue His191 in Cav3.2 reduced the channel's sensitivity to MTSES, and introduction of the corresponding histidine into Cav3.1 sensitized it to MTSES. Removal of extracellular cysteines from the IS1–IS2 loop of Cav3.2 reduced its sensitivity to MTSES and SP. We hypothesize that oxidative modification of IS1–IS2 loop cysteines induces allosteric changes in the zinc-binding site of Cav3.2 so that it becomes sensitive to ambient zinc.

Pathogenic bacteria of the genera Mycobacterium and Corynebacterium cause severe human diseases such as tuberculosis (Mycobacterium tuberculosis) and diphtheria (Corynebacterium diphtheriae). The cells of these species are surrounded by protective cell walls rich in long-chain mycolic acids. These fatty acids are conjugated to the disaccharide trehalose on the cytoplasmic side of the bacterial cell membrane. They are then transported across the membrane to the periplasm where they act as donors for other reactions. We have previously shown that transient acetylation of the glycolipid trehalose monohydroxycorynomycolate (hTMCM) enables its efficient transport to the periplasm in Corynebacterium glutamicum and that acetylation is mediated by the membrane protein TmaT. Here, we show that a putative methyltransferase, encoded at the same genetic locus as TmaT, is also required for optimal hTMCM transport. Deletion of the C. glutamicum gene NCgl2764 (Rv0224c in M. tuberculosis) abolished acetyltrehalose monocorynomycolate (AcTMCM) synthesis, leading to accumulation of hTMCM in the inner membrane and delaying its conversion to trehalose dihydroxycorynomycolate (h2TDCM). Complementation with NCgl2764 normalized turnover of hTMCM to h2TDCM. In contrast, complementation with NCgl2764 derivatives mutated at residues essential for methyltransferase activity failed to rectify the defect, suggesting that NCgl2764/Rv0224c encodes a methyltransferase, designated here as MtrP. Comprehensive analyses of the individual mtrP and tmaT mutants and of a double mutant revealed strikingly similar changes across several lipid classes compared with WT bacteria. These findings indicate that both MtrP and TmaT have nonredundant roles in regulating AcTMCM synthesis, revealing additional complexity in the regulation of trehalose mycolate transport in the Corynebacterineae.

Bacterial type VII secretion systems secrete a wide range of extracellular proteins that play important roles in bacterial viability and in interactions of pathogenic mycobacteria with their hosts. Mycobacterial type VII secretion systems consist of five subtypes, ESX-1–5, and have four substrate classes, namely, Esx, PE, PPE, and Esp proteins. At least some of these substrates are secreted as heterodimers. Each ESX system mediates the secretion of a specific set of Esx, PE, and PPE proteins, raising the question of how these substrates are recognized in a system-specific fashion. For the PE/PPE heterodimers, it has been shown that they interact with their cognate EspG chaperone and that this chaperone determines the designated secretion pathway. However, both structural and pulldown analyses have suggested that EspG cannot interact with the Esx proteins. Therefore, the determining factor for system specificity of the Esx proteins remains unknown. Here, we investigated the secretion specificity of the ESX-1 substrate pair EsxB_1/EsxA_1 in Mycobacterium marinum. Although this substrate pair was hardly secreted when homologously expressed, it was secreted when co-expressed together with the PE35/PPE68_1 pair, indicating that this pair could stimulate secretion of the EsxB_1/EsxA_1 pair. Surprisingly, co-expression of EsxB_1/EsxA_1 with a modified PE35/PPE68_1 version that carried the EspG5 chaperone-binding domain, previously shown to redirect this substrate pair to the ESX-5 system, also resulted in redirection and co-secretion of the Esx pair via ESX-5. Our results suggest a secretion model in which PE35/PPE68_1 determines the system-specific secretion of EsxB_1/EsxA_1.

Kindlins are focal adhesion proteins that regulate integrin activation and outside-in signaling. The kindlin family consists of three members, kindlin-1, -2, and -3. Kindlin-2 is widely expressed in multiple cell types, except those from the hematopoietic lineage. A previous study has reported that the Drosophila Fit1 protein (an ortholog of kindlin-2) prevents abnormal spindle assembly; however, the mechanism remains unknown. Here, we show that kindlin-2 maintains spindle integrity in mitotic human cells. The human neuroblastoma SH-SY5Y cell line expresses only kindlin-2, and we found that when SH-SY5Y cells are depleted of kindlin-2, they exhibit pronounced spindle abnormalities and delayed mitosis. Of note, acetylation of α-tubulin, which maintains microtubule flexibility and stability, was diminished in the kindlin-2–depleted cells. Mechanistically, we found that kindlin-2 maintains α-tubulin acetylation by inhibiting the microtubule-associated deacetylase histone deacetylase 6 (HDAC6) via a signaling pathway involving AKT Ser/Thr kinase (AKT)/glycogen synthase kinase 3β (GSK3β) or paxillin. We also provide evidence that prolonged hypoxia down-regulates kindlin-2 expression, leading to spindle abnormalities not only in the SH-SY5Y cell line, but also cell lines derived from colon and breast tissues. The findings of our study highlight that kindlin-2 regulates mitotic spindle assembly and that this process is perturbed in cancer cells in a hypoxic environment.