BIT 2.63% 2.0¢ biotron limited

BIT036- a likely candidate for curing COVID-19, page-238

  1. 16,498 Posts.
    lightbulb Created with Sketch. 777


    I have found some info Regarding other proteins which interact with the viral E Protein and its potential as a target. What relevance it has to BIT i'm not sure. Will BIT drug BIT036 or when they announce they have one against COVID-19 take out E and other proteins attached because there are signalling pathways that keep viral replication alive. Plus there are other non structural Proteins that are for replication as well like Nsp3,4,6 as shown in table below., not sure how they get taken out. .

    https://hotcopper.com.au/data/attachments/2106/2106004-c006444336e612a18ba4dcc927714c96.jpg



    https://virologyj.biomedcentral.com/articles/10.1186/s12985-019-1182-0

    Coronavirus envelope protein: current knowledge



    It is particularly noteworthy that SARS-CoV encodes two accessory proteins, 3a and 8a, that might exhibit relative compensatory functions in the absence of E [285, 286]. In terms of viral replication in vivo and in vitro, 3a could partially compensate for the loss of E. Moreover, 3a also contains a PBM and might be able to compensate for the loss of E to an extent but utilises different signalling pathways [285]. Although the study demonstrated that even the accessory proteins demonstrate some measure of dispensability, the virus still encodes these additional proteins with overlapping functions. The dynamics between these proteins, however, are not quite clear yet and warrants further investigation.


    https://towardsdatascience.com/covid-19-and-drug-development-b800d8917b50

    A SARS-CoV-2-Human Protein-Protein Interaction Map Reveals Drug Targets and Potential Drug Repurposing

    https://www.biorxiv.org/content/10.1101/2020.03.22.002386v3.full.pdf


    SARS-CoV-2 envelope interacts with bromodomain proteins
    Surprisingly, we find that the transmembrane protein E binds to the bromodomain-containing proteins BRD2 and
    BRD4 (Fig. 4d, Extended Data Fig. 9), potentially disrupting BRD-histone binding by mimicking histone structure.
    BRD2 is a member of the bromodomain and extra-terminal (BET) domain family whose members bind acetylated
    histones to regulate gene transcription 69. The N-terminus of histone 2A shares local sequence similarity over an
    alpha-helix of approximately 15 residues, some of which are in a transmembrane segment, of Protein E (Fig.
    4d). Moreover, this matching region of the histone is spanned by acetylated lysine residues shown to bind
    BRD270. This analysis may suggest that Protein E mimics the histone to disrupt its interaction with BRD2, thus
    inducing changes in host's protein expression that are beneficial to the virus.
    For a more comprehensive overview of the virus-host interactions we detected, see Supplemental Discussion.

    Identification of existing drugs targeting SARS-CoV-2 human host factors.
    "Similarly, drugs exist to target several well-known epigenetic
    regulators prominent among the human interactors, including HDAC2, BRD2 and BRD4, which interact with viral
    proteins nsp5 and E, respectively (Figs. 3 and 5a). The approved drug Valproic acid (an anticonvulsant) and the
    pre-clinical candidate Apicidin inhibit HDAC2 with affinities of 62 μM and 120 nM, respectively. Clinical
    compounds ABBV-744 and CPI-0610 act on BRD2/4, with an affinity of 2 nM or 39 nM, respectively -- several
    preclinical compounds also target bromodomain-containing proteins (Table 1a,b)."

    https://www.caymanchem.com/news/uncovering-the-role-of-brd2-in-covid-19
    BRD2, a member of the bromodomain extra terminal protein family, is known to regulate the expression of 1,450 genes. It is specifically localized at promoters of target genes, and
    early reports from the cell mapping initiative at Quantitative Biosciences Institute Coronavirus Research Group indicate that BRD2 interacts with SARS-CoV-2 envelope proteins. It is not yet known why the virus needs BRD2https://www.nytimes.com/2020/03/17/science/coronavirus-treatment.html

    Protein Targets

    Scientists have mapped hundreds of the proteins in human cells that the coronavirus uses to grow. Their goal is to find an antiviral drug that can prevent the virus from replicating.


    The flu like symptoms observed in infected people are the result of the coronavirus attacking cells in the respiratory tract. The new map shows that the virus’s proteins travel throughout the human cell, engaging even with proteins that do not seem to have anything to do with making new viruses.



    One of the viral proteins, for example, latches onto BRD2, a human protein that tends to our DNA, switching genes on and off. Experts on proteins are now using the map to figure out why the coronavirus needs these molecules.


    Dr. Shokat and his colleagues have found 50 promising candidates. The protein BRD2, for example, can be targeted by a drug called JQ1. Researchers originally discovered JQ1 as a potential treatment for several types of cancer.

 
watchlist Created with Sketch. Add BIT (ASX) to my watchlist
(20min delay)
Last
2.0¢
Change
0.001(2.63%)
Mkt cap ! $17.59M
Open High Low Value Volume
1.9¢ 2.0¢ 1.9¢ $11.54K 604.2K

Buyers (Bids)

No. Vol. Price($)
10 1466986 1.9¢
 

Sellers (Offers)

Price($) Vol. No.
2.0¢ 830622 7
View Market Depth
Last trade - 15.55pm 15/11/2024 (20 minute delay) ?
BIT (ASX) Chart
arrow-down-2 Created with Sketch. arrow-down-2 Created with Sketch.