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Oligomerization

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Title: Oligomerization


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Oligomerization
Junping Chen
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Introduction Small lipophilic hormones,
such as steroid, thyroid hormones, retiniods and
vitamin D, are very important in generation,
growing and metabolism. These hormones induce
these functions by binding the nuclear receptors,
which bind to the DNA oligomerically as the
transcription factors. The receptors can also
bind to the activators or corepressors to
modulate DNA transcription.
3
It has been reported that a remarkable
conservation in both the amino acid sequences and
different functional regions of nuclear
receptors.
4
Figure 1. General design of transcription factors
in nuclear-receptor superfamily. The central
DNA-binding domain is homology among different
receptors. The C-terminal hormone-binding domain
exhibits less homology. The N-terminal regions
are various and may contain more activation
domains.
5
The nuclear receptors have a N-terminal
region (A/B) of variable length (100500 amino
acids) as the transcription-activation domains.
The DNA-binding domain (DBD or region C) is near
the center and has the C4 zinc-finger motif. The
hormone-binding domain (region E) is near the
C-terminal end (region F).
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Figure 2. Schematic representation of
a nuclear receptor.
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oligomerization
  • Monomer
  • Homodimer
  • Heterodimer

8
Monomer
  • Several orphan nuclear receptors can bind to DNA
    as monomers.
  • The monomic HRE has a single AGG/TTCA following
    the 5-flanking A/T riched sequence.
  • The receptors bind the HREs by the CTE whose
    third helix can contact the minor groove of DNA.
  • The function of these receptors is still
    unknown.
  • Example HNF4

9
Figure 4. Binding sites for activators that
control transcription of the mouse transthyretin
(TTR) promoter in hepatocytes. HNF means
hepatocyte nuclear factor.
10
Homodimer
  • Homodimeric receptors are found both in the
    cytoplasm and nucleus.
  • It suggests that their activity is regulated
    by controlling their transport from the cytoplasm
    to the nucleus.
  • Eg hormone-dependent translocation of the
    homodimeric glucocorticoid receptor (GR)

11
Figure 5. Model of hormone-dependent gene
activation by the glucocorticoid receptor (GR).
In the absence of hormone, GR is bound in a
complex with Hsp90 in the cytoplasm via its
ligand-binding domain (light purple). When
hormone is present, it binds to the GR
ligand-binding domain, causing a conformational
change in the ligand-binding domain that releases
the receptor from Hsp90. The receptor with bound
ligand is then translocated into the nucleus
where its DNA-binding domain (orange) binds to
response elements, allowing the activation domain
(green) to stimulate transcription of target
genes.
12
  • Steroid receptors almost always bind as homodimer
    to the HRE.
  • The dimer interface in the LBD is the residues
    of helices 7,8,9 and the loop between helices
    8and 9.
  • The dimer interface in the DBD which binds the
    palindromic DNA repeats with head to head
    arrangement involves the AAs of the D (linker
    between C and E regions) box.

13
A
B
14
Heterodimers
  • Many non-steroidal hormone receptors, such as the
    receptors for all-trans retinoic acid, 9-cis
    retinoic acid, T3 and VD3 hormones, prefer
    heterodimers to binding the HREs of the genes. In
    these cases, the RXR (the receptor for 9-cis
    retinoic asid) is the most popular combining
    partner in the heterodimers.
  • Some monomeric receptors can also form the
    heterodimers with RXR. Eg NGFI-B
  • Some homodimeric receptors can also form
    heterodimers with RXR, such as, COUP-TF.

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  • There are two steps for heterodimers binding
    to DNA
  • First, RXR bind its partner in solution by the
    LBDs.
  • Second, DBDs bind to the DNA.

17
  • There are three types of heterodimeric
    complexes
  • Unoccupied heterodimers
  • Nonpermissive heterodimers can be activated
    only by the partners ligand. Eg, RXR/TR,
    RXR/VDR, and RXR/RAR
  • Permissive heterodimers can be activated by the
    RXR ligands or the partner receptor ligands. Eg,
    PPAR/RXR, FXR/RXR, or NGFI-B/RXR

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Interaction with other TFs
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Interaction With Coactivators
  • Nuclear receptors have the AF-2 domain, which
    lies at the C-terminal and generates the
    hydropilic surface for coactivator binding.
  • Coactivator families
  • a. The p160 family SRC-1, SRC-2, p/CIP.
  • b. PPARg coactivator-1
  • c. RNA activator (SAR) works through the
    NH2-terminal AF-1 domain

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Figure 7. Domains of p160 families of receptor
coactivators. General features based on
sequencehomology. p160 coactivators has a basic
helix-loop-helix (bHLH) motif and a Per-Arnt-Sim
(PAS) homology region at the N-terminal. The
nuclear receptor interacting domain (RID)
contains three LXXLL motif. There are two
activation domains (AD1 and AD2) and an
intervening glutamine-rich (Q) region at the
C-terminal.
22
Interaction with Corepressers
  • NCoR or RIP-13
  • SMRT (silent mediator for retinoic and thyroid
    hormone receptors)

23
FIG. 8. Structure of the nuclear receptor
corepressors SMRT and NCoR. There are three
repressor domains (RD1, RD2, and RD3) and two
receptor interacting domains (RID). The RIDs
located at the C-terminal contain the extended
helical motif LXX I/H I XXX I/L.
24
Reference
  • Ana Aranda and Angel Pascual. Nuclear Hormone
    Receptors and Gene Expression. PHYSIOLOGICAL
    REVIEWS. 2001 July Vol. 81, No. 3 1270-95
  • Lodish, Harvey Berk, Arnold Zipursky, S.
    Lawrence Matsudaira, Paul Baltimore, David
    Darnell, James E. Molecular Cell Biology. 4th ed.
    Chapter 10.7.
  • Gerhard Krauss. Biochemistry of signal
    Transduction and Regulation. 2nd ed. Chapter 4.
    148-66.
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