Drug Design Lecture 1 PDF

Summary

This document discusses optimizing pharmacokinetic properties in drug design, focusing on improving absorption and metabolism. Examples of drugs and techniques like steric shields are provided to increase stability and efficiency. The document shows notes from a lecture on the topic.

Full Transcript

## Optimizing Pharmacokinetic Properties

- A lot of problems in **Metabolic Stability** and **Absorption** are encountered in **Pharmacokinetic**.

### Improving Absorption:

- **Log P, pKa** are the main factors controlling the *Absorption* in Physicochemical properties.
- If **Log** is too high or too low, the absorption will be low.

#### Examples:

| Example | Description |
| -------------------------------------------------------------------------- | ------------------------------------------------------------------------------------------------- |
| **Acyclovir** | *Low polarity, high absorption (<85-90%)* |
| **Valacyclovir (Prodrug)** | *Masking the hydroxyl group with a methyl group to make it less polar, resulting in high absorption (~90%).* |
| *Frequency of dose: 6-8 Times daily. Med. use: Antiviral in Herpes infection.* | *Withdrawal: Poor absorption because of high polarity. Absorbed by 15% only.* |
| *Optimized absorption: Varied alkyl substitution in drug latentiation.* | |

## Improving metabolism:

### Techniques:

#### 1. Steric Shields

- This technique is used to protect esters or amides from undergoing Hydrolysis by esterase or amidase enzymes.
- Steric shields can be used to block these enzymes from accessing the ester or amide group.
- Example: **Bulk tert-butyl group** (protects Amide from amidase).
- **Antiarrhythmic drug**, called: **steric shield**, results in 50% metabolic stability.

#### 2. Acetyl Choline (important example)

- Acetyl Choline has two issues: **dynamic** and **kinetic**.
- Solution: **Steric shields**

| Example | Description |
| -------------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ |
| **Methacholine** | *Metabolite stable & also selective at muscarinic receptor. It prevents hydrolysis by esterase enzyme. Steric shield (CH3) and electronic effects are used to protect this drug from destruction by esterase enzyme.* |

#### 3. Stereoelectronic Modification (Steric shield + Electronic effect)

| Example | Description |
| --------------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
| **Acetylcholine** | +CH3 group is added to make it **Bethanechol** this creates a steric shield to prevent hydrolysis. CH3NH2 is also added to provide an electron-donating group, also contributing to increased stability. |
| **Lido Procaine** | *This drug is an ester. Its electrophilicity is lower than that of **Lidocaine** (an amide) due to the electronic effect. Steric hindrance with two methyl groups are used to prevent the degradation of the ester via **procaine**.* |

#### 4. Metabolic Blockers

- Progesterone, which has a hydrogen on a specific carbon, is vulnerable to metabolism.
- The solution is to replace that hydrogen with **OCOCH3**.
- This results in **Megesterol acetate** which demonstrates increased metabolic stability.