dendrimers are nano
TRANSCRIPT
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Dendrimers are nano-sized, radially symmetric molecules
well-defined, homogeneous and monodisperse structure
Consisting of tree-like arms or branches
Dendrimer is based on the Greek words dendron meaning
tree or branch and meros meaning part
Dendrimers have a globular configuration with monomer units branching out from a center cord.
The structure is highly defined and organized.
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The number of branches increases exponentially extending from core to the periphery.
The branching would come to a stop when the steric hindrance stopped any further growth.
The multi-functionalized core (initiator core) forms the heart of the molecules; all branches emanate from this core.
The monomers that attach to the core form the first branches (The First Generation).
On the successive generations, two monomers will attach to the ends of the monomers in the previous generation.
At the terminating generation, a terminal functional group is added to the tail of the monomer.
Most of the chemical properties of the molecule depend on types of terminal groups.
The physical properties of the molecules, such as solubility and viscosity are also affected by the terminal groups.
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Some of these dendrimers have diameters that are greater than ten nm.
The molecular weights range from about 50,000 to 200,000 g/mol.
The outer surface area of the molecule increases with the number of generations.
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There is a significant of void space within the molecule. These voids consist of channels and cavities.
These unique geometries give the molecule special properties such as adhesiveness and ability to entrap foreign
molecules.
SYNTHESIS OF DENDIMERS
Divergent Growth Method
This type of synthesis involves two steps:
The activation of the functional surface groups
The addition of branching monomer units.
The reaction starts at the core.
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Additional monomers are attached to the molecule.
Steps are repeated for synthesizing higher generations.
One can control the structure and molecular weight of the molecule precisely.
Divergent growth method is labor intensive and repetitive.
In successive generation growth, side reactions and incomplete additions become more apparent attributed to
steric hindrance.
In each step, the desire products must be purified.
The overall yield is considerably small.
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One of the great advantages of this method is the ability to modify the surface of the dendrimer molecule.
By changing the end groups at the outermost generation, the overall chemical and physical properties of the
dendrimer can be configured to specific needs
It is due to this versatility that sparked the interest in dendrimer research.
PAMAM dendrimers were synthesized using divergent method, starting with an initiator core and expanding to
the periphery
The initiator core contains several reaction sites.The first generation monomer units react with thecore readily.Once all reactive sites are taken, the addition
stops.Since the end groups on the first generation areprotected, addition of monomers to the end chain isimpossible.The end groups must be activated before anyfurther addition.The passive functionalities on the end groups areremoved by a secondary reaction.
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In PAMAM dendrimer synthesis it is observed after tenth generation.
The rate of reaction drops suddenly and further reactions of the end groups cannot occur.
The tenth generation PAMAM contains 6141 monomer units and has a diameter of about 124
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Convergent Growth Method
This method was first introduced by Frechet.
The reaction starts at the periphery and proceeds to the core.
Similar to divergent growth, it involves two steps:
The attachment of the outermost functional groups to an inner generation
The attachment of the inner generations to the core
The structural units before the final attachment to the core is called the "wedge."
Three to four wedges attach to the core.
Each wedge can have different functional groups at the periphery.
Thus, the making of unsymmetrical dendrimers is possible.
This modification is useful in monolayer formation at the organic-aqueous interface.
Half of the dendrimer is submerged in the water phase, while the other half is in the organic phase
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Dendritic copolymers are a specific group of dendrimers.
There are two different types of copolymers:
Segment-block dendrimers: are built with dendritic segments of different constitution.
They are obtained by attaching different wedges to one polyfunctional core molecule.
Layer-block dendrimers consist of concentric: spheres of differing chemistry.
They are the result of placing concentric layers around the central core
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Pharmaceutical Application
Dendrimers Drug Delivery: Targeted And Controlled Release Drug Delivery
Dendrimers are considered as a possible drug carriers because of their unique properties.
Well defined three-dimensional structure
Availability of many functional surface groups
Low polydispersity
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Drug molecules can be loaded both in the interior of the dendrimers as well as attached to the surface groups.
Dendrimers can function as drug carriers either by encapsulating drugs within the dendritic structure, or by
inter-acting with drugs at their terminal functional groups via electrostatic or covalent bonds.
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Structural options for dendrimer based drug delivery.
Dendrimers can be synthesized with neutral surfaces and positive or negative charges at the periphery;
Dendritic macromolecules, generally when larger than G3, can harbor non-covalently encapsulated drug
molecules
An alternative strategy for drug delivery is through covalent conjugation of ligands to the surface of the
dendrimer
The versatility of dendrimers for drug delivery is illustrated by
considering that A could be a targeting ligand and the active drug could be encapsulated within the same
macromolecule
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Synthetic strategies are now available for providing dendritic clusters with extremely high densities of surface
ligands and for providing more than one type of surface ligand, either in a random orientation, or in blocks.
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Requirements for dendrimer-based, cancer-targeted drug delivery.
(a) Dendrimers with multiple surface functional groups can be directed to cancer cells by tumor-targeting entitiesthat include folate or antibodies specific for tumor-associated antigens (TAAs).
(b) The next step is intake into the cell, which in the case of folate targeting occurs by membrane receptor-mediated endocytosis.
(c) Once inside the cell, the drug generally must be released from the dendrimer, their is simultaneousdisintegration of the dendritic scaffold (d)...
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Dendrimers are particularly attractive as they offer a high drug-loading capacity.
Methods of dendrimer drug delivery are encapsulation of drugs and dendrimerdrug conjugates
DNA was complexed with PAMAM dendrimers for gene delivery applications, and hydrophobic drugs and dye
molecules were incorporated into various dendrimer cores
In dendrimerdrug conjugates, the drug is attached through a covalent bond either directly or via a linker/space
to the surface groups of a dendrimer
Dendrimers have been conjugated to various biologically active molecules such as drugs, antibodies, sugar
moieties and lipids.
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The drug loading can be tuned by varying the generation number of the dendrimer
Release of the drug can be controlled by incorporating degradable linkages between the drug and dendrimer.
Conjugates of PAMAM dendrimers with cisplatin, a potent anticancer drug with non-specific toxicity and poor
water solubility.
The conjugates show increased solubility, decreased systemic toxicity and selective accumulation in solid tumors
Poly(lysine) dendrimers is modified with sulfonated naphthyl groups
Found to be useful as antiviral drugs against the herpes simplex virus can potentially prevent/reduce
transmission of HIV
This dendrimer-based nano-drug inhibited early stage virus/cell adsorption
Inhibit later stage viral replication by interfering with reverse transcriptase and/or integrase enzyme activities
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Dendrimers In Photodynamic Therapy
The photosensitizer 5-aminolevulinic acid has been attached to the surface of dendrimers
Studied as an agent for PDT of tumorigenic keratinocytes
Photo sensitive dyes have been incorporated into dendrimers and utilized in PDT devices
This cancer treatment involves the administration of a light- activated photosensitizing drug that selectively
concentrates in diseased tissue.
The possibility of improving the properties of dendrimers through appropriate unfunctionalization of their
periphery makes dendrimers promising carriers for photosensitizers
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Dendrimers In Gene Transfection
Dendrimers can act as vectors, in gene therapy.
PAMAM dendrimers have been tested as genetic material carriers.
Dendrimers as non-viral gene transfer agents, enhancing the transfection of DNA by endocytosis and, ultimately,
into the cell nucleus
A transfection reagent called SuperFectTM consisting of activated dendrimers is commercially available.
Activated dendrimers can carry a larger amount of genetic material than viruses.
SuperFectDNA complexes are characterized by high stability and provide more efficient transport of DNA into
the nucleus than liposomes.
PAMAM dendrimers functionalized with cyclodextrin showed luciferase gene expression about 100 times higher
than for unfunctionalized PAMAM
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Diagnostics
Paramagnetic metal chelates such as Gd(III)- N,N,N,N-tetracarboxymethyl-1,4,7,10-tetraazacy-clododecane
(Gd(III)-DOTA) and their derivatives used as contrast agents for magnetic resonance imaging (MRI)
Dendrimer-based Gd(III) chelates consisting of generations 2 and 6 PAMAM dendrimers with 12 and 192
terminal surface amines conjugated to the chelating ligand 2-(4-isothiocyanatobenzyl)-6- ethyldiethylenetriamine-
pentaacetic acid through a thiourea linkage were synthesized .
These contrast agents exhibited excellent MRI images of blood vessels upon intravenous injection.
These dendrimer polychelates were exploited for high-quality MR angiography (MRA) images up to 60 min post
injection
DNA-dendrimers, which are constructed for routine use in high-throughput functional genomic analysis, and as
biosensors for the rapid diagnosis have genetic, and pathogenesis diseases
Radiolabelled monoclonal antibodies with high specific activity have been prepared by attachment of PAMAM
dendrimers
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Dendritic Catalysts / Enzymes
The combination of high surface area and high solubility makes dendrimers useful as nanoscale catalysts.
Dendrimers have a multifunctional surface and all catalytic sites are always exposed towards the reaction
mixture.
They can be recovered from the reaction mixture by easy ultra filtration methods
Dendritic shells can be used to create a microenvironment favorable for catalysis or provide shielding for
functional groups at the dendritic core
1.Metallodendritic catalysts
2. Catalysis with phosphine-based dendrimers
3.Catalysis with (metallo) dendrimers containing chiral ligands
4.Non-metal containing dendrimers
CATALYSIS
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Industrial Processes
Dendrimers can encapsulate insoluble materials, such as metals
transport them into a solvent within their interior.
Cooper and co-workers synthesized fluorinated dendrimers, which are soluble in supercritical CO2 and can be
used to extract strongly hydrophilic compounds from water into liquid CO2
This may help develop Technologies in which hazardous organic solvents are replaced by liquid CO2
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