Mechanism of penicillin action: Penicillin and substrate bind ...
Option D.2: Aspirin and Penicillin · •Salicylic acid and its derivatives (aspirin and...
Transcript of Option D.2: Aspirin and Penicillin · •Salicylic acid and its derivatives (aspirin and...
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Option D.2: Aspirin and Penicillin- Structures in section 37 of data booklet
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Pain Detection and Response
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Mild Analgesics• Salicylic acid and its derivatives (aspirin and
paracetamol)– block the transmission of pain from source
– interfere with/ suppress the production of substances (prostaglandins) by the injured tissues.
• Prostaglandins stimulate pain receptors that send pain impulses to the brain and that cause swelling and fever.
• Do not interfere with brain function (like strong analgesics/narcotics)
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Salicylic Acid• Analgesic for old timey people- Hippocrates and Pliny
the Elder (go listen to Sawbones) • Unpleasant to take– Bitter taste– Acidity = irritating to the stomach/ damaged the
membranes in the mouth, gullet and stomach
• What functional groups does salicylic acid have?
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Aspirin• Derivative of salicylic acid. • How are the functional groups
different?
– Salicylic acid was converted into aspirin by esterification
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Synthesis of aspirin: Method
• The product is cooled to form crystals which are then suction filtered and washed with cold water (aspirin not soluble in cold water) - What is removed?
• Concentrated H2SO
4 is
added to the reaction (catalyst) mixture which is warmed gently.
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Synthesis of aspirin: Purification• Recrystallization: - animation– dissolve the impure crystals in a small volume
of hot ethanol (better solubility of aspirin)– Water is added to the solution and the
solution is cooled slowly and chilled• Why slowly? • Aspirin recrystallizes out. What will be left
in the solution?
o The pure crystals are removed using filtration.
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Testing Aspirin Purity
• Find the melting point! – Pure substances have a well
defined melting point (small range) • Pure Aspirin: 138-140 0C
• Salicylic Acid: 159 0C
• Mixture: lower and less defined mp
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Characterization of aspirin: IR
• Characterization = determining identity of a product.
•Using IB data booklet, compare and contrast the IR spectrum for salicylic acid and aspirin.
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Characterization of aspirin: IR
• Common:o A strong C-O peak from 1050 to 1410 cm-1 in alcohols and
esterso A strong peak at 1700 -1750 cm-1 for C=O in carboxylic acid
group.o A strong, broad O-H peak at 3200 - 3600 cm-1 in salicylic
acid.
• Different:o The ester group in aspirin at 1700 to 1750 cm-1 which is not
there in salicylic acid as salicylic acid does not have an ester group.
o The absence of hydroxyl group in aspirin means that there is no peak at 3200 to 3600 cm-1.
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Beneficial side effects of aspirin In addition to acting as an analgesic, aspirin also:
o Acts as an anticoagulant as it reduces blood clotting
o Prevents the recurrence of heart attacks and strokes as it thins the blood.
o Aspirin also seems to prevent colon cancer. Medicines taken for preventative measures are also referred to as a prophylactic.
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Negative side effects of aspirin ○ Anticoagulant (negative for people with
blood clotting disorders)
○ irritation and ulceration of stomach
■ can lead to bleeding
○ How to reduce these?
■ Coatings to delay activity until it has reached the small intestine
○ Many people are allergic (esp. asthmatics)
○ Reye’s Syndrome in <12 year olds
■ potentially fatal liver/brain disorder
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Synergetic effect of aspirin with ethanol
• Ethanol produces a synergic effect with a number of drugs including aspirin– Synergetic = effect of the drug is
enhanced – Can be dangerous e.g. aspirin and
ethanol together can increase risk of stomach bleeding.
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Increasing bioavailability of aspirin
• Very low solubility in water (largely nonpolar)– Has a carboxylic acid group, can be made into an
ionic salt by reacting it with a strong base to form a soluble sodium salt• Forming ionic salt = increased solubility in
water (ie. Soluble Aspirin)– Why does increasing solubility in water
increase the bioavailability?
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Penicillins
• Antibacterials: drugs that kill or inhibit the growth of bacteria that cause infectious diseases.
• Penicillins are a group of compounds that are produced by fungi and kill harmful microrganisms
– antibiotics or antibacterials.
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Penicillin and the Beta-lactam group• Penicillin G shown in the IB Data booklet.
• The main part of the structure is the beta-lactam
ring. • 4-membered ring with a cyclic amide• Responsible for its antibacterial properties• small bond angles (90°) = strain on bonds =
weak bonds that easily react
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How do penicillins work? • Prevent the growth of bacteria• Beta-lactam ring disrupts the formation of cell walls– Deactivates the enzyme transpeptidase – High reactivity of beta-lactam group causes it to
bind irreversibly near the active site of the enzyme
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How do penicillins work? • Inactivation of Enzyme
(transpeptidase)– blocks process of cell
wall construction• prevents polypeptide
cross links from forming between mucopeptide chains
• No strengthened links = weak cell wall– Cell bursts and
dies
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Disadvantages of Penicillin G
● Broken down by stomach acid○ must be injected directly
into bloodstream● Can make different forms
of penicillin by modifying the side chain (R group) ○ retains activity (no change
to beta-lactam)● Many people have allergies
to penicillin
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Antibacterial Resistance: Penicillin
● As a result of genetic mutations, bacteria have become resistant to penicillins.○ Causes the break-up of the
beta-lactam ring (no activity) ○ These bacteria then reproduce and
pass on their resistance to succeeding generations.
The more opportunities there are for the mutation into antibiotic resistant bacteria.
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Modification of Side Chain
● Modified side chains can prevent binding of the enzyme that breaks the beta-lactam group○ Reduce antibiotic resistance○ Increase resistance to stomach acid○ Reduce allergic reactions
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Examples of modified penicillins that are able to resists penicillinase
oxacillin methicillin
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Responses to Antibacterial Resistance
● Modified side chains● Antibiotics = prescription only○ not used incorrectly for non-bacterial
issues● Patient Compliance
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Spread of Drug Resistant Bacteria
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Spread of Drug Resistant Bacteria
● Patient compliance○ Patients not completing the full
course of penicillins = prolonging the disease as not all bacteria are killed■ Bacteria to live longer = more mutations
= more bacteria with resistance. ■ Patient compliance also allows disease
to spread as bacteria are not all killed.