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Anticancer therapy: Histone Deacetylase Inhibitors

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Title: Anticancer therapy: Histone Deacetylase Inhibitors


1
Anticancer therapy Histone Deacetylase Inhibitors
  • Afsha Rais

2
Histones are so cool!
  • In chromatins, DNA is wrapped around proteins of
    which most are histones.
  • Histones assist in DNA packaging and have a
    regulatory role.
  • Histones have a high proportion of positively
    charged amino acids (lysine and arginine) which
    bind tightly to the negatively charged DNA.
  • Four core histones H2A, H2B, H3, and H4 serve to
    wrap DNA into nucleosomes.
  • Nucleosomes is the repeating pattern of 8 histone
    proteins along the length of the chromatin
    structure, with each octet associated with 146
    basepairs of DNA
  • The linker histone H1 role

3
                                              
                                                  
                        
4
Introduction to HDAC
  • Dimethyl sulfoxide (DMSO)
  • Terminal differentiation of murine
    erythroleukemia cells
  • Interest in Histone Deacetylase (HDAC) inhibitors
  • Chromatin remodeling
  • SAHA made it!!
  • Treat rare cancer cutaneous T-cell lymphoma
    (CTCL)
  • Antitumor action of compounds undergoing clinical
    trials

5
www.pharmadd.com/.../graphs/HDAC20Inhib_lg.gif
6
The main pharmacological application for HDAC
inhibitors is the treatment of cancer.
7
Cancer and HDAC?!
  • How does cancer occur?
  • Transcription therapy ? treatment for cancer
  • 2 enzymes in the cell
  • Histone acetyltransferase (HAT)
  • Histone deacetylase (HDAC)
  • Histone deacetylase inhibitors (HDI)
  • Importance

8
HDAC Biology
  • Histone acetylation attachment of acetyl groups
    (-COCH3) to certain amino acids of histone
    proteins Histone deacetylation the removal of
    acetyl groups.
  • HDACs have many functions such as regulation of
    gene transcription, regulation of gene expression
    by deacetylating transcription factors, gene
    slicing, differentiation, and participation in
    cell cycle regulation.

9
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10
HDAC inhibitors
  • Class of compounds that interfere with the
    function of histone deacetylase
  • 4 classes of HDAC inhibitors
  • A short-chain fatty acid
  • Hydroxamic acid
  • Cyclic tetrapeptides
  • Benzamides

11
The short chain fatty acids
  • Phenylbutyrate
  • One of the first HDAC inhibitors to be tested in
    patients
  • Valporic acid
  • a histone deacetylase inhibitor (HDACI), in vitro
    induces differentiation of promyelocyte leukemia
    cell and proliferation arrest and apoptosis of
    various leukemia cell lines.

12
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13
Hydroxamic acid
  • First compound to be identified as HDAC
    inhibitors
  • suberoyl anilide hydroxamic acid (SAHA)
  • helped define the model pharmacophore for HDAC
    inhibitors

14
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15
Suberoylanilide Hydroxamic Acid (SAHA)
16
Trichostatin A (TSA)
  • Hydroxamic acid
  • Reversible inhibitor of Histone deacetylase
  • Induce cell cycle arrest at G1, apoptosis, and
    cellular differentiation
  • Has some uses as anti-cancer drug

17
Cyclic tetrapeptides
  • Apicidin
  • Ethyl ketone component
  • Depsipeptide
  • Modulate the expression of genes
  • Trapoxin

18
Benzamides
  • Two drugs undergoing clinical trial
  • MS-275
  • A substance that is being studied in the
    treatment of cancers of the blood
  • Mice experiment and result
  • CI-994
  • Mechanism of antitumor activity unclear
  • Causes accumulation of acetylated histones
    although is not able to inhibit HDAC activity in
    a direct fashion

19
www.ifom-ieo-campus.it/research/chiocca.php
20
Summary
  • HDAC inhibitors induce growth arrest,
    differentiation, and/or apoptotic cell death in
    transformed cells.
  • This inhibition of HDAC activity leads to
    relaxation of the structure of chromatin.
  • The relaxed chromatin structure allows these
    genes to be expressed, which finally inhibit
    tumor cell growth.
  • Research shows that HDAC inhibitors are well
    tolerated can inhibit activity in tumoral cells
    and have efficiency in tumor regression.

21
Future
  • Further clinical studies are needed to define the
    optimal dosage and duration of therapy with HDAC
    inhibitors in the fight against cancer.
  • Additionally, more work is needed to understand
    the molecular basis of the HDAC inhibitors
    selectivity in the alteration of gene
    transcription, and in chromatin dynamics during
    malignant transformation.
  • Lastly, the resistance of normal cells to HDAC
    inhibition by these agents is also needed to be
    studied further.

22
References
  1. Kouraklis, Author's first name initialG.,
    Theocharis, S. (2002). Histone Deacetylase
    Inhibitors and Anticancer Therapy. Curr. Med Chem
    - Anti-Cancer Agents. 2, 477-484.
  2. Fang, J (2005).Histone deacetylase inhibitors,
    anticancerous mechanism and therapy for
    gastrointestinal cancers. Journal of
    Gastroenterology and Hepatology. 20, 988-994.
  3. Miller, T., Witter, D., Belvedere, S. (2003).
    Histone Deacetylase Inhibitors. Journal of
    Medicinal Chemistry. 46, 5097-5116.
  4. http//www.nlm.nih.gov/medlineplus.html
  5. Bieliauskas, A., Weerasinghe, S., Pflum, M.
    (2007). Structural requirements of HDAC
    inhibitors SAHA analogs functionalized adjacent
    to the hydroxamic acid. Bioorganic Medicinal
    Chemistry Letters. 17, 2216-2219.
  6. Campbell, N., Reece, J. (2002). Biology.San
    Francisco Benjamin Cummings.
  7. www.metahistory.org/images/Nucleosome.jpg
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