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Peroxisomes & Peroxisomes & Peroxisome Proliferator-Activator Receptors in Dermatologyin Dermatology
M.Y.ABDEL_MAWLA,MDM.Y.ABDEL_MAWLA,MD
Zagazig Faculty of Zagazig Faculty of Medicine,Zagzig,EGMedicine,Zagzig,EGYPTYPT
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Peroxisomes in CellsPeroxisomes in Cells
The trouble with simple things is that one must
understand them very well !!!
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The PeroxisomeThe Peroxisome
Single Single membranemembrane
Roughly Roughly sphericalspherical– 0.2 - 1.70.2 - 1.7mm
CompositioComposition variesn varies
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Peroxisomes
Peroxisomes : intracellular organelles with important roles defined in many metabolic processes.
Peroxisomes:in all mamalian cells,including kertatinocytes
They derive their name from their ability to produce H2O2 through a group of oxidizing enzymes which use molecular oxygen to transform their substrates, releasing H2O2 and OH
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Peroxisomes
The oxidative stress resulting from H2O2 is known to stimulate phospholipase D, associated with the production of phosphatidic acid and diacylglycerol.
These in turn affect adenylyl cyclase and protein kinase C, respectively, which can modulate a wide array of target proteins including plasma membrane receptors, contractile proteins and regulatory enzymes.
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PeroxisomesPeroxisomes
Peroxisomes are similar physically Peroxisomes are similar physically to lysosomes, but they are to lysosomes, but they are different in different in two important waystwo important ways1.1.First, they are believed to be formed First, they are believed to be formed
by self-replication (or perhaps by by self-replication (or perhaps by budding off from the smooth budding off from the smooth endoplasmic reticulum) rather than endoplasmic reticulum) rather than from the Golgi apparatus. from the Golgi apparatus.
2.2.Second, they contain oxidases rather Second, they contain oxidases rather than hydrolases. than hydrolases.
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Peroxisomes Peroxisomes BiogenesisBiogenesis The development of peroxisomes
involves a series of events including the recruitment of (phospho)lipids, synthesis, sorting and assembly/activation of matrix &membrane proteins.
The peroxisomal membrane mainly consists of phosphatidylcholine &phosphatidylethanolamine and largely resembles that of the endoplasmic reticulum (ER)
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Peroxisome BiogenesisPeroxisome Biogenesis
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Peroxisomes BiogenesisPeroxisomes Biogenesis
Membrane proteins are synthesized on free polysomes in the cytosol.
The model discriminates between membrane proteins essential for the biogenesis of organelles (PMBs) and those involved in the organellar function (PMFs, e.g. transporters).
PMBs (e.g. Pex2p, Pex3p, Pex15p and Pex16p) may initially be transported to the ER and, eventually vesicle-mediated, be sorted to the growing peroxisome;
PMFs may be transported directly to the organelle
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Peroxisomes Functions
Peroxisomes play only a minor role in cellular functions.
Peroxisomes play an important role in regulating cellular proliferation and differentiation as well as in the modulation of inflammatory mediators.
Peroxisomes have broad effects on the metabolism of lipids, hormones.
Peroxisomes also affect cellular membranes and adipocyte formation, as well as insulin sensitivity.
Peroxisomes play a role in aging and tumorigenesis through their effects on oxidative stress.
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Peroxisomes Functions
Peroxisomes may be either catabolic or anabolic.
Some functions are exclusively peroxisomal
Others : shared with other cellular compartments (microsomes endoplasmic reticulum, and mitochondria).
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Peroxisomes Functions in Cell signaling
N =nucleus, MIT = mitochondria, MIC = microsomes, Per = peroxisome, PKO = phosphatidyl choline,
PC = phosphosphatidyl choline, AA = arachidonic acid, OX = peroxisomal oxidases, LCFA = long-chain fatty acids, MCFA = medium-chain fatty acids, DG = diacylglycerol, PA = phosphatidic acid, CAT = catalase, OFR = oxygen free radicals. Peroxisome functions involved n cell signaling would potentiate differentiation, while
reactive oxygen species would potentiate tumorigenesis and aging and catalase and other peroxisomal scavengers would moderate the effects of reactive oxygen species
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Peroxisomes &Free RadiclesPeroxisomes &Free Radicles
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Peroxisomal EnzymesPeroxisomal Enzymes
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Key peroxisomal enzymes
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How Peroxisomes to How Peroxisomes to Function?Function? Peroxisomes, contribute to key metabolic
pathways of the cell function. These organelles are able to proliferate
abundantly upon exposure to so-called peroxisome proliferators.
Peroxisome proliferators may activate PPARs by binding directly to the receptors,and the activated PPARs may regulate the expression of genes involved in lipid metabolism and peroxisome proliferation
Peroxisome-located enzymes are also regulated by many molecules including nutrients (fatty acids, steroids), hormones (T3, retinoids), PPARs and other nuclear signaling factors.
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How Peroxisomes to How Peroxisomes to Function?Function? Peroxisomal proliferator activator
receptors (PPARs) and ligands for these receptors modulate different peroxisomal functions.
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PPARs Distribution
PPARs are found mainly in tissues associated with high fatty acid metabolism.
Thus are expressed mainly in liver,
They are also found in kidney, muscle, heart, fat, B and T lymphocytes , vascular smooth muscle and keratinocytes
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Peroxisome Proliferator-Activator Receptors (PPARs)
•Nuclear hormone receptor superfamily
•Multiple isoforms ()
•Unique tissue distribution
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PPAR:RXR
Co-repressors Co-activators
Modulation of gene transcription
RXR Ligands
PPAR Ligand
??
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Biological effect
Mechanism of PPAR action
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Mechanism of PPAR action
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PPARs FUNCTIONS
PPARs play a significant role in many in skin homeostasis.
On binding of ligand, PPARs undergo a conformational change enabling them to form a heterodimer with the 9-cis retinoic acid receptor (RXR).
PPAR/RXR complex forms a transcription factor able to bind to DNA at PPREs, which are DNA sequences specifically capable of ‘recognition’ and binding by the DNA-binding component of this transcription factor.
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PPAR FUNCTIONSPPAR FUNCTIONS
A large number of PPAR target genes have been identified with wide-ranging effects on cell proliferation differentiation, inflammatory responses and angiogenesis, as well as lipid and glucose metabolism.
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Peroxisome proliferator-activated receptors (Peroxisome proliferator-activated receptors (PPARs)PPARs) function as heterodimers with function as heterodimers with retinoid X receptors (RXRs) and are activated by specific ligands; they then retinoid X receptors (RXRs) and are activated by specific ligands; they then modulate DNA transcription by binding to defined nucleotide sequences (peroxisome modulate DNA transcription by binding to defined nucleotide sequences (peroxisome proliferator response element, PPRE) in the promoter region of target genes. Several proliferator response element, PPRE) in the promoter region of target genes. Several cofactors (coactivators or corepressors) mediate the ability of nuclear receptors to cofactors (coactivators or corepressors) mediate the ability of nuclear receptors to stimulate or repress the transcription process. (b) The N-terminus A/B domain stimulate or repress the transcription process. (b) The N-terminus A/B domain contains a ligand-independent transcriptional activation domain (AF-1), which can be contains a ligand-independent transcriptional activation domain (AF-1), which can be regulated by mitogen-activated protein kinase (MAPK) phosphorylation in α and γ regulated by mitogen-activated protein kinase (MAPK) phosphorylation in α and γ isotypes. The C domain contains two zinc-finger-like motifs that specifically bind the isotypes. The C domain contains two zinc-finger-like motifs that specifically bind the PPRE in the regulatory region of PPAR-responsive genes. The D domain or hinge PPRE in the regulatory region of PPAR-responsive genes. The D domain or hinge region allows conformational changes in the molecule. The E/F domain consists of region allows conformational changes in the molecule. The E/F domain consists of the ligand-binding domain and the ligand-dependent transcriptional activation the ligand-binding domain and the ligand-dependent transcriptional activation domain (AF-2). The ligand-binding pocket appears to be quite large in comparison domain (AF-2). The ligand-binding pocket appears to be quite large in comparison with other nuclear receptors, allowing the PPARs to interact with a broad range of with other nuclear receptors, allowing the PPARs to interact with a broad range of natural and synthetic ligandsnatural and synthetic ligands
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ACTIVATION OF PPARs
Most nuclear hormone receptors exist in an inactive form complexed with heats hock proteins
PPAR activation and regulation may occur either following interaction with specific ligands or by kinase-mediated phosphorylation, following a variety of extracellular signals.
Following binding of ligand, the PPAR undergoes a conformational change and becomes able to interact through the E/F domain with RXR to form heterodimers.
These dimers will then interact with the cognate recognition motif (PPREs) in the promoter region of relevant genes to activate transcription of target genes.
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ACTIVATION OF PPARs
PPARs are held in inactive complex associated with heat shock proteins (HsP). Following binding with ligand or other activation signals .
HsP is replaced with retinoic acid receptor (RXR) forming active transcription factor.
The active PPAR/RXR heterodimer binds to PPAR response element AGGTCA X AGGTCA to initiate transcription of relevant genes.
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PPARγ activation.
Upon ligand binding, the nuclear receptor PPARγ associates with nuclear receptor RXR as well as with coactivators and corepressors which are present in a cell type and state specific pattern. This complex binds to PPAR response elements to enhance or repress gene transcription.
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Biological roles of PPAR
PPAR mediates the induction of multiple enzymes required to mobilize and transport fatty acids from adipose stores to liver for catabolism. Basis for therapeutic use in humans to lower serum lipids.
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Biological roles of PPAR/
Ligand activation of PPAR/ leads to terminal differentiation of keratinocytes as shown by four independent laboratories.
Activation of PPAR/ in skeletal muscle leads to increased catabolism of fatty acids and improved insulin sensitivity.
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Biological roles of PPAR
The role of PPAR in carcinogenesis is also controversial. There is evidence that activation of PPAR can either potentiate or attenuate cancer, but current consensus favors attenuation.
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Orchestration of Immune Responses
TISSUESThymusSpleen
Lymph nodesBlood
CELLSLymphocytes
Monocytes/MacsNeutrophilsEosinophilsBasophils
Dendritic cells
MOLECULESComplement
LysozymeInflammatory mediators
ChemokinesCytokines
Innate immunityAdaptive Immunity
PPARs are found in a number of immune cell types and there is evidence that they could modulate a number of
different immune responses
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Role of PPAR in Immune Function
•Expressed in monocytes/macrophages, increased after treatment with phorbol ester
•PPAR ligands induce apoptosis in activated macrophages
•PPAR ligands decrease secretion of MMPs in LPS-treated monocytes
•PPAR ligands decrease NOS activity in macrophages
BUT…
•Natural PPAR ligands increase NOS activity in macrophages
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Role of PPAR in Immune Function
•Inflammatory response induced by LTB4 is enhanced in PPAR-null mice
•PPAR ligands can inhibit inflammatory cytokine production
BUT…
•PPAR ligands cause increase in serum TNF after LPS
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Role of PPAR in Immune Function
•Reports suggest that PPAR ligands are anti-inflammatory but there are also some reports suggesting that PPAR ligands are pro-inflammatory
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Peroxisomes &Inflammation
PPAR-a activation: transcription factor for peroxisomal metabolism for arachidonic-derived proinflammatory eicosanoids.
ligands for this activation are the w-3 fatty acids, which may explain their antiinflammatory effects.
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Peroxisomes &Inflammation
PPARa repress NFkB transcription, signal transducer and activator of transcriptions (STATs) and AP-1 (Jun/ Fos) transcription and the downstream signaling mechanism.
These effects result in the decreased production of inflammatory cytokines, protease production, and some mechanisms for proliferation and apoptotic signaling.
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Peroxisomes &Inflammation
Activation of PPARs also modulates endothelial cell adhesion molecules, and endothelial cells express both PPARa and PPAR gamma
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Peroxisomes Peroxisomes &INFLAMMATION&INFLAMMATION The peroxisome proliferator-activated The peroxisome proliferator-activated
receptors (PPARs) α, β/δ, and γ are ligand-receptors (PPARs) α, β/δ, and γ are ligand-activated transcription factors belonging to activated transcription factors belonging to the nuclear receptor superfamily. the nuclear receptor superfamily.
In addition to their regulatory role on lipid In addition to their regulatory role on lipid and glucose metabolism, they exert anti-and glucose metabolism, they exert anti-inflammatory properties. inflammatory properties.
In skin both PPAR-α and PPAR-β/δ regulate In skin both PPAR-α and PPAR-β/δ regulate keratinocyte proliferation/differentiation and keratinocyte proliferation/differentiation and contribute to wound healing. contribute to wound healing.
The 3 PPAR isoforms are expressed by The 3 PPAR isoforms are expressed by several cell types recruited into the dermis several cell types recruited into the dermis during inflammation. during inflammation.
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Effects on angiogenesis
Vascular endothelial cell growth factor(VEGF) is a potent endothelial cell-specific mitogen.
PPAR agonists have diverse effects on the expression of VEGF .
PPAR gamma ligands increase the generation of VEGF , which might be expected to have pro-angiogenic effects.
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Peroxisomes and Sterol Metabolism The levels of 17b-hydroxy forms of
sex steroids are regulated by the 17b-hydroxysteroid dehydrogenase (17b-
HSD) family of proteins. The type IV enzyme, found
primarily in peroxisomes, possesses a number of unique features
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Peroxisomes and Sterol Metabolism 17b-HSD IV is involved in
degradation of branched-chain fatty acids and the side chain of cholesterol.
Its expression is stimulated by PPARa ligands
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Peroxisomes in Epidermal Differentiation & Proliferation
A well documented effects of PPARs on gene transcription associated with lipid metabolism & energy homeostasis.
Roles in epidermal maturation, repair and angiogenesis are highlighted.
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Peroxisomes in Epidermal Differentiation & Proliferation
PPARα has a role in barrier development.PPARα has a role in barrier development. Activators of PPARα, such as clofibrate, Activators of PPARα, such as clofibrate,
oleic acid and linoleic acid, accelerate the oleic acid and linoleic acid, accelerate the barrier development. barrier development. as evidenced by:
1. decreased transepidermal water loss (TEWL);2. increased epidermal stratification; 3. the appearance of mature lamellae in the
extracellular spaces of a multilayered stratum corneum.
4. the induction of b-galactosidase and steroid sulphatase,
5. accelerated the expression of profilaggrin, and its processing to filaggrin, and the expression of loricrin, a
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Peroxisomes & Atopic Peroxisomes & Atopic DermatitisDermatitis Changes in immunoglobulin-
associated transcription in atopic dermatitis may favour
IgE over secretory immunoglobulin (multimeric IgM and IgA) expression in AD skin.
Decreased PPAR activity appears common
to both AD and psoriasis, and reduced cutaneous IFNa2 transcription also appears characteristic of AD
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Peroxisomes in Epidermal Differentiation & Proliferation
PPARa ligands : to promote epidermal differentiation,to restore epidermal homeostasis in hyperproliferative
mouse epidermis and regulate apoptosis.
PPARb ⁄ gamma:induced expression of involucrin and transglutaminase( markers of keratinocyte differentiation)
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Wound healing PPARa and PPARb ⁄
gamma:expression is upregulated in the keratinocytes at the wound edge of the damaged skin.
PPARa is re-expressed transiently in this area during the early inflammatory phase of the healing.
Delays in wound healing parallel the pattern of PPAR expression of the respective PPAR isotypes
PPARb upregulation : linked to proinflammatory cytokines, such
as interferon, tumour necrosis factor
(TNF)-a.
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Wound healing
PPARb : a key mediator ofepidermal effects in wound healing by converting the extracellular inflammatory signal into an organized pattern of gene expression leading to survival, migration and differentiation of keratinocytes.
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Sebocyte glands
Activation of PPAR gamma &a by their respective specific ligands, stimulates lipid
droplet accumulation in sebocytes. Because increased sebum production
is an important element in the pathogenesis of acne vulgaris, development PPAR antagonists interfering selectively with sebum formation may have implications for the treatment of acne.
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Psoriasis
The hallmarks of psoriasis are abnormal differentiation & hyperproliferation of keratinocytes with inflammatory cell infiltration. These cellular changes are likely to find their explanation in activated T lymphocytes infiltrating the skin.
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Psoriasis
PPARs : a critical regulator of cutaneous homeostasis in psoriasis.
In view of their prodifferentiating, antiproliferative & immunomodulating effects, PPAR ligands may be interesting compounds for the treatment of epidermal disorders showing inflammation,hyperproliferation&
aberrant differentiation, such as psoriasis.
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Psoriasis
PPAR gamma and some of its ligands, including two lipoxygenase metabolites, are induced by the T helper (TH)2 cytokine IL-4 in macrophages.
PPAR gamma activation may also be an integral part of the effecter mechanism for downregulation TH1 dominate inflammatory reaction such as psoriasis and rheumatoid arthritis
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PsoriasisPsoriasis
The expression of both PPARa & gamma is decreased in epidermis , whereas the exact opposite happens with PPAR dela.
Treatment by troglitazone, a specific PPAR gamma activator, inhibited the proliferation of both normal and psoriatic human keratinocytes
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PsoriasisPsoriasis
There may be an association between
psoriasis and the genes encoding PPARa or PPAR gamma
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Human immunodeficiencyvirus-1-protease inhibitor associatedlipodystrophy
HIV-1-protease inhibitor-associated lipodystrophy : the result of impaired cellular retinoic acid binding
protein type I (CRABP-1)-mediated 9-cis retinoic stimulation of PPARc:RXR.
Altered differentiation status of peripheral adipocytes in HIV-1-infected patients with protease inhibitor lipodystrophy is associated with greatly reduced sterol-regulatory element-binding protein 1c (SREBP1c) mRNA expression
Reduced SREBP1 expression consequently alters the PPAR gamma activity, which may lead to lipodystrophy and to metabolic alterations.
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Peroxisome defects
There are now many inherited disorders known to relate to peroxisome defects, frequently with significant cutaneous manifestations such as
1. ichthyosis2. Recurrent ulceration,3. alopecia, 4. follicular atrophoderma 5. And photosensitivity, Thus ,it is suggested that modification of
their activity may be of therapeutic benefit in the
field of dermatology
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SummarySummary
Peroxisome proliferator-activated Peroxisome proliferator-activated receptors (PPARs) are ligand-activated receptors (PPARs) are ligand-activated transcription factors that regulate the transcription factors that regulate the expression of target genes involved in many expression of target genes involved in many cellular functions including cell proliferation, cellular functions including cell proliferation, differentiation and immune/inflammation differentiation and immune/inflammation response.response.
The PPAR subfamily consists of three The PPAR subfamily consists of three isotypes: PPARα, PPARβ/δ and PPARγ, which isotypes: PPARα, PPARβ/δ and PPARγ, which have all been identified in keratinocytes.have all been identified in keratinocytes.
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SummarySummary
PPARβ/δ is the predominant PPARβ/δ is the predominant subtype in human keratinocytes, subtype in human keratinocytes, whereas PPARα and PPARγ are whereas PPARα and PPARγ are expressed at much lower levels and expressed at much lower levels and increase significantly upon increase significantly upon keratinocyte differentiation.keratinocyte differentiation.
PPARβ/δ is significantly PPARβ/δ is significantly upregulated upon various upregulated upon various conditions that result in conditions that result in keratinocyte proliferation, and keratinocyte proliferation, and during skin wound healing.during skin wound healing.
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SummarySummary
PPARs appear to play an important role in skin PPARs appear to play an important role in skin barrier permeability, inhibiting epidermal cell barrier permeability, inhibiting epidermal cell growth, promoting epidermal terminal growth, promoting epidermal terminal differentiation and regulating skin inflammatory differentiation and regulating skin inflammatory response by diverse mechanisms. response by diverse mechanisms.
These proprieties are pointing in the direction These proprieties are pointing in the direction of PPARs being key regulators of skin conditions of PPARs being key regulators of skin conditions characterized by hyperproliferation, characterized by hyperproliferation, inflammatory infiltrates and aberrant inflammatory infiltrates and aberrant differentiation such as psoriasis,differentiation such as psoriasis,
They may also have clinical implications in They may also have clinical implications in other inflammatory skin disease (e.g. atopic other inflammatory skin disease (e.g. atopic dermatitis), proliferative skin disease, wound dermatitis), proliferative skin disease, wound healing, acne and protease inhibitor associated healing, acne and protease inhibitor associated lipodystrophia.lipodystrophia.
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A Message HomeA Message Home
Peroxisomes are small cellular organelles that were almost ignored for years because they were believed to play only a minor role in cellular functions.
Peroxisomes play an important role in regulating cellular proliferation and differentiation as well as in the modulation of inflammatory mediators.
Peroxisomes have broad effects on the metabolism of lipids, hormones,.
Through their effects on lipid metabolism, peroxisomes also affect cellular membranes and adipocyte formation, as well as insulin sensitivity
Peroxisomes play a role in aging and tumorigenesis through their effects on oxidative stress.
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THANK YOUTHANK YOU