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Abstract

The physiochemical properties of drugs play an important role in the absorption and bioavailability of the drug substance and thus, to its effectiveness to reach to its target. Hence, these properties must be predicted at the preclinical stage of the drug development to avoid the chances of its failure at the later stage. The development in the field of computational biology has significantly reduced drug failures. In-silico approach to drug discovery and development now makes it possible to apply various techniques at the early stage of drug discovery to virtually screen the molecules which don’t appear to have good absorption/solubility properties. A lot of solubility models have been devised so far based on the experimentation as well as molecular descriptors. This paper elaborates the descriptive background of solubility prediction as well as various models developed in the recent years.

Introduction:

In modern drug discovery, the techniques like combinatorial chemistry and high-throughput screening (HTS) have resulted large amount of compounds being tested in a day. However, the number of new molecular entities (NME) approved annually has not changed significantly over the last two decades according to the Center for Drug and Evaluation and Research of U.S.Food and Drug Administration (FDA)[1]. Investigation of the reasons that cause reduction in the drug likeliness of candidates may help us to discover developable drug candidates prior to expensive clinical trials.

In 1991, about 40% of drug candidate attrition was caused by adverse pharmacokinetics (PK) and bioavailability[2]. The development in the field of computational biology significantly reduced drug failures. In last five years, more than 158 drugs were approved by FDA for various diseases. QSAR and ADME-Tox like properties have been evaluated before clinical testing. However, poor Solubility and bioavailability is still a major factor that leads to drug attrition. The drug aqueous solubility and membrane permeability are the major factors affecting drug`s bioavailability[3].

Prediction of Solubility of substance:

The solubility of organic molecules in water has a significant impact on many ADME-related properties of drugs, such as absorption, distribution, transport and eventually bioavailability[4]. The solubility of a neutral compound or of a compound in its non-ionized form is defined as the intrinsic solubility and normally represented as log S, where S is the concentration of the compound in mol/l in a saturated aqueous solution in equilibrium with the most stable form of the crystalline material. In practice, about 85% of drugs have log S between -1 and -5, and virtually none has a value<-6. Emperically, the logS range of -1 to -5 for most drugs reflects a compromise between the polarity necessary for reasonable aqueous solubility and the hydrophobicity necessary for the acceptable membrane transport[5].
Solubility and intestinal absorption are two counterparts applied in the Biopharmaceutics Classification System.

2.1 Biopharmaceutics Classification System:

The Biopharmaceutics Classification System is a system to differentiate the drugs on the basis of their solubility and permeability. It is a guide for predicting the intestinal drug absorption provided by the U.S. Food and Drug Administration[6]..

The classification:

According to the Biopharmaceutics Classification System, drug substances are classified as follows:

BCS suggests methods for classification according to dosage form dissolution together with solubility-permeability characteristics of the drug product
2.2 Types of Solubility:

There are mainly four types of solubility as described in the relevant literature:

Sr. No.	Solubility type	Description
1.	Intrinsic solubility	Solubility of a non-electrolyte or an electrolyte almost 100% in its neutral form is the concentration (mol/L) of its saturated solution in equilibrium with the solid phase.
2.	Thermodynamic Solubility	Solubility of a compound in a solvent can be defined as the maximum amount of the most stable form of the compound that can remain in solution in a given volume of the solvent at a given temperature and pressure under equilibrium condition.
3.	Apparent Solubility	Solubility of an electrolyte is a function of its intrinsic solubility, pH value and its pKa and is measured at a certain pH level.
4.	Kinetic Solubility	This type of solubility is the concentration when an induced precipitate first appears in a solution.

3. Types of Solubility models:

The aqueous solubility models can be categorized into two types, those correlated with experimentally determined properties and those not[7]. There are a number of ways in which the models can be classified. Even they can be classified on the basis of the characteristics of descriptors. They can even be classified in terms of various methods implemented to derive the model. The most specific classification can be:

Solubility models based on experimental measurements.
Solubility models devised using molecular descriptors.

3.1 In-silico models based on experimental measurements:

For a given solid state and solvent, the solubility S is almost exclusively dependent on the intermolecular adhesive interactions between solute-solute, solute-solvent and solvent-solvent molecules. That is to say the crystal packing, cavitation and solvation energy determine the intrinsic solubility of a compound[7]. A number of models have been devised so far, based on the equations generated on the various experimental properties including melting point, octanol-water partition coefficient, molecular weight, free energy of solvation, vapor pressure of pure substances, boiling point etc.

3.2 In-silico Solubility Models devised using Molecular Descriptors:

Molecular Descriptors:

The molecular descriptor is the final result of a logical and mathematical procedure which transforms chemical information encoded within a symbolic representation of a molecule into a useful number or the result of some standardized experiment[8].

By applying the mathematical and/or logical operations on such structures, we can devise the short term that serve as the self explanatory describer of the elements and structure of the molecules. Such derivations are known as “Molecular Descriptors”.

Molecular descriptors are formulated by applying various concepts and principles from different theories/areas like Information theory, Quantum Chemistry, Organic Chemistry, Molecular Graph Theory etc.

Molecular descriptors and QSAR Modeling:

A molecular structure can be related to a particular effect in a biological system. But this relationship isn’t clear. If we can establish this relationship, we can use that information to our benefit. A number of efforts have been carried out to establish this relationship, which has led to the development of the various predictive models. If we take a series of chemicals and attempt to form a quantitative relationship between the biological effects (i.e. the activity) and the chemistry(i.e. the structure) of each of the chemicals, then we are able to form a Quantitative Structure Activity Relationship(QSAR)[9].

4. Solubility models developed in the recent years:

Several years back, the solubility models were being developed using huge datasets. There was a tendency among developers to use larger data set to develop the model. Gradually, some new developments have started the trend of designing and customizing new datasets according to the need and requirements.

The following is the summary of the solubility models developed in the last decade.

4.1. Summary of recent models for Aqueous Solubility Prediction[2002-2011][10]:

Year	Authors	Modeling method	Type of Descriptors
2002	Engkvist and Wrede	CNN	Topological and Constitutional
2003	Cheng and Merz	GA/MLR	Topological
2003	Wegner and Zell	CNN	Topological, Electronic
2003	Manallack et al	CNN	BCUT
2003	Schaper et al	MLR	HYBOT
2003	Yan and Gasteiger	CNN	3D
2003	Yan et al	CNN	3D
2004	Hou et al	MLR	Atom types
2004	Votano et al	CNN	Topological and Constitutional
2004	Bergstrom et al	PLS	2D and 3D
2004	Raevsky et al	MLR	HYBOT, Nearest neighbor similarity
2006	Hansen	ANN	PH dependent Aqueous solubility model
2008	Ducowicz	MLR	Drug like molecules
2010	Kramer	RF	Classification model
2010	Kramer	BRNN	Classification model

5. Available solubility data sources:

Despite the vital importance of the solubility data of different compounds from chemical, biochemical, pharmaceutical and industrial data sets, there is still a lack of fundamental solubility and mass-transfer data available in the literature to facilitate the development of solubility models[11].

Sr.No.	DataSet	Details
1.	Huuskonen	This is the most popular dataset used in the recently developed solubility models. It contains the structures in SMILES format.
2.	Delaney	Another well known data set containing 1144 law molecular weight compounds. Contains the structures in SMILES format with solubility in M/L
3.	PHYSPROP	It contains chemical structures, names and physical properties for over 41,000 chemicals. Physical properties collected from a wide variety of sources include experimental, extrapolated and estimated values. It is bundled with EPA's EPI Suite.
4.	AQUASOL	The latest(sixth) edition of the AQUASOL database, developed by Yalkowski[12]s of Aqueous Solubility contains almost twenty thousand solubility records for almost six thousand compounds. These data are extracted from over eighteen hundred scientific references.
5.	SOLUB	This Is comparatively new aqueous solubility database, on the Chemical Information System. It provides detailed and extensive solubility data on more than 2,600 chemical substances
6.	MERCK	This dataset is from MERCK KGaA, which offers a diverse set of compounds including solubility. They provide perfect base for the data to be used in the Training set
7.	PubChem	It contains the datasets for three different domains: Compound, Bioassay, and Substance. Over 1.4 million structures from Collaborative Drug Discovery (CDD) are now available in PubChem, including almost 94,000 novel structures.
8.	ChEMBL	It is the host of the dataset repositories for different applications with the extended searching routines to seek through the diverse set of data for finding ligand, target finding, browsing by drugs and searching various Assays.

6. List of packages for solubility prediction:

Sr. No.	Software	Method/ Descriptor	Commercial/ Freeware
1.	ACD/PhysChem		Commercial
2.	Slipper	MLR	Commercial
3	ADMET Predictor	Topological indices	Commercial
4	CSlogWS	Topological descriptors, ANN	Commercial
5	Material Studio	-	Commercial
6	COSMOTherm/COSMO-RS	MLR	Commercial
7	Qikprop	MLR	Commercial
8	ALOGPS 2.1	ANN	Freeware
9	ACD/logP	-	Freeware
10	LogP Caluculator from Molinspiration	-	Freeware
11	Discovery Studio	-	Commercial

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