Which other compounds can we find in the purine ring?
the atoms of the purine ring are contributed by a number of compunds:
amino acids (apartic acid, glycine, glutamine)
CO2
N10-formyltetrahydrofolate
Where in the body does the construction of the purine ring primarly take place?
liver —> by a series of reactions that add the donated carbons + nitrogens to a performed ribose 5-phosophate
where is ribose 5-phosphate produced?
in the pentose phosphate pathway
What are the 7 steps of the synthesis of purine nucleotides?
Synthesis of 5-phosphoribose-1-pyrophosphate (PRPP)
Synthesis of 5-phosphoribosylamine
Synthesis of inosine monophosphate (“parent” purine nucleotide)
Synthetic inhibitor of purine synthesis
Conversion of IMP to AMP and GMP
Conversion of nucleoside monophosphate to nucleoside diphosphate and triphosphate
Salvage pathway for purines
What is the first step of the synthesis of purine nucleotides?
synthesis of 5-phosphoribosyl-1-pyrophosphate (PRPP)
what is PRPP?
an “activated pentose” which participates in the synthesis + salvage of purines + pyrimidines
PRPP is synthesized from which compounds?
ATP and ribose 5-phosphate
Which enzyme catalyzes the synthesis of PRPP?
ribose phosphate pyrophosphokinase (PROO synthetase)
How does the activation/inhibition of PRPP synthetase work?
The X-linked enzyme is activated by inorganic phosphate
is inhibited by purine nucleotides (end-product inhibition)
What is the 2nd step in the synthesis of purine nucleotides?
Synthesis of 5´-phosphoribosylamine
Which compounds do we need for the synthesis of 5´-phosphoribosylamine?
PRPP + glutamine
How does the synthesis of 5´-phosphoribosylamine work?
the amid group of glutamine replaces the pyrophosphate group attached to C1 of PRPP
Which enzyme is important in the synthesis of 5´phosphoribosylamine from PRPP?
phosphoribosylpyrophosphate amidotransferase
What activates the reaction of PRPP to 5´-phosphoribosylamine?
intracellular concentration of PRPP —> any small change in PRPP concentration causes a proportional change in rate of the reaction
What inhibits the reaction of PRPP to 5´-phosphoribosylamine?
the purine 5´-nucleotides AMP + GMP (end-product inhibition)
What is the 3rd step in the synthesis of purine nucleotides?
Synthesis of inosine monophosphate (= “parent” purine nucleotide)
How many steps are recquired for the biosynthesis of inosine monophosphate (IMP)?
9
Which compounds are required for the synthesis pf IMP?
ATP as an energy source
2 steps require N10-formyltetra-hydrofolate
What is the funczion of synthetic inhibitors of purine syntesis? (+ examples)
inhibit the growth of rapidly dividing microorganisms without interfering with human cell functions (sulfonamides)
are used pharmalcologically to control the spread of cancer by interfering with the synthesis of nucleotides —> and therfore the synthesis of DNA + RNA (analogs of folic acid —> eg: methotrexate)
Are inhibitors of human purine synthese toxic?
inhibitors of human purine synthesis are extremly toxic to tissues —> especially to developing structures (fetus) or to cell types that normally replicate rapidl (bone marroe, skin, GIT, immune system, hair follicles)
patients receiving those anticancer drugs can experience adverse effects —> anemia, scaly skin, GIT disturbances, immunodeficiencies, hair loss
What is the next step of purine nucleotide synthesis after IMP is formed?
conversion of IMP to AMP and GMP
How does the concersion of IMP to AMP and GMP work?
conversion uses a 2-step energy-requiring pathway
which form of energy is required in the conversion of IMP into AMP and GMP
AMP —> guanosine triphosphate (GTP)
GMP —> ATP
What inhibits the conversion of IMP to AMP and GMP?
the first reaction of the conversion is inhibited by the end products of the pathway (either AMP or GMP)
if both AMP + GMP are present in adequate amounts the new synthesis pathway of purine synthesis is turned off at the amidotransferase step (PRPP —> 5´-phosphoribosylamine)
What is the effect of “MYCOPHENOLIC ACID” in the conversion of IMP to AMP + GMP?
the druff is a reversible-inhibitor of IMP dehydrogenase
the drug deprives rapidly proliferating T + B cells of key components of nucleuc acids
is an immonr-suppressant used to prevent graft rejection
What is the next step after AMP and GMP are produced?
the concversion of the mucleoside monophosphates to nucleoside diphosphates and nucleoside triphosphates
how do we synthesize nucleoside diphosphates?
they are synthesized from the corresponding nucleoside monophosphate by base-specific nucleoside mono-phosphate kinases
AMP + ATP —> 2 ADP
GMP + ATP —> GDP + ADP
What are the 2 base-specific nucleoside minophosphate kinases in the synthesis of nucleoside diphosphates?
adenylate kinase (particular active in liver + muscles -> there is an high amount of ATP)
guanylate kinase
what is the main function of the enzyme adenylate kinase
maintains equilibrium among AMP, ADP, ATP
How does the conversion of nucleoside diphosphate and nucleoside triphosphate work and which enzymes are required?
nucleosides diphosphate and triphosphate are interconverted by the enzyme “nucleoside diphosphate kinase” —> the enzyme has a broas specificity
What do we understand under the term “Salvage pathway for purines”?
purines that result from a normal turnover of cellular nucleic acids or the small amount that is obtained from the diat and not degraded and then converted to nuceosides triphosphates by the body
which 2 enzymes are involved in the conversion of purine bases to nucleotides?
adenin phosphoribosyltransferase (APRT)
hypoxanthine-guanine phosphoribosyltransferase (HGPRT)
How does the conversion of purine bases to nucleotides work?
the enzymes APRT + HGPRT use PRPP as the source of the ribose 5-phosphate group
this group is transfered to the purine base —> formation of nucleotides
is the conversion of nucleoside bases to nucleotides reversible or irreversible?
irreversible
the release of pyrophosphate from PRPP + its subsequent hydrolysis by pyrophospatese makes the reaction irreversible
What is the Lesch-Nyhan Syndrome?
an X-linked recessive inherited disorder associated with a virtually complete deficiency of HGPRT enzyme —> therfore patient is not able to salvage hypoxanthine or guanine
this enzyme deficiency leads to increased levels of PRPP + decreased levels of IMP and GMP —> this increases de novo purine synthesis
increased de novo purine synthesis results in excessive production of uric acid + characteristic neurological features (self-mutilation and involuntary movements)
other symptoms: formation of uric acid stones in kidneys (urolithiasis) + deposition of urate ctrystals in the joints (gouty arthritis)
motor dysfunction, cognitive deficits, behavioral disturbances
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