TY  - CONF
AU  - Verbić, Tatjana
AU  - Avdeef, Alex
AU  - Tam, Kin Y.
AU  - Marković, Olivera S.
AU  - Pešić, Miloš P.
AU  - Topalović, Igor A.
AU  - Veljković, Dušan Ž.
AU  - Kathawala, Mufaddal
AU  - Serajuddin, Abu T. M.
PY  - 2023
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/5993
AB  - Since the introduction of combinatorial chemistry and high-throughput screening in drug 
discovery in the early 1990s, the solubility of new chemical entities (NCE) decreased drastically 
while their lipophilicities increased greatly. Characterizing physicochemical properties of low soluble molecules can be especially challenging, since such molecules can undergo 
complicated reactions in aqueous solution, such as forming precipitates or complexes with 
buffer species or undergoing self-aggregation (dimer, trimer, etc.)1,2 or micelle formations. 
Most drugs are ionizable. Foremost to the rational interpretation of solution behavior of 
ionizable drugs in a physiologically-relevant pH domain requires an accurate aqueous pKa, 
determined by a suitable method. In a pH-dependent measurement of a property (e.g. 
solubility-, lipophilicity-, permeability-pH), when the apparent pKa value is different from the 
true aqueous pKa value, it may be an early clue that nonideal solution behavior may be taking 
place. In pharmaceutical research, it may seem cost-effective to use calculated pKa instead of 
measured values, but paradoxically, such preference can lead to inaccurate rationalization of 
the pH-dependent behavior of the drug molecule. For simple molecules, calculated values can 
be useful, but for today’s new drugs or for molecules prone to complicated solution behavior, 
the use of calculated pKas can substantially wrench the interpretation of solution properties. 
Clofazimine (CFZ), although discovered about 66 years ago, and used therapeutically for nearly 
40 years, exhibits some of the properties of relatively recent drug molecules by being 
extremely water insoluble and having variable pKa values reported. We have recently 
combined potentiometric titrations and UV/Vis spectrophotometry in methanol-water 
cosolvent media, accompanied by DFT calculations, to assess the hypothesis of CFZ free base 
dimerization. We reasoned that a soluble dimer might form from drug-drug adhesion along 
the hydrophobic molecular surface. With lessened exposure of the hydrophobic surface to 
water, the dimer would be more water soluble than the monomeric free base. In saturated 
solutions, the apparent solubility in alkaline pH would be elevated due to the presence of the 
dimer. The effect of that would be a lower pKa and reverse pKa cosolvent dependence – the 
behaviour we have noticed in CFZ aqueous solutions. These findings are of paramount 
importance for understanding of CFZ speciation and the future progress in developing its 
improved formulations which is the subject of our ongoing studies.
PB  - International Association of Physical Chemists
C3  - 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023
T1  - Revealing the story of an orphan drug: clofazimine speciation  and solubilization as a function of pH
SP  - 15
EP  - 15
UR  - https://hdl.handle.net/21.15107/rcub_cherry_5993
ER  - 

@conference{
author = "Verbić, Tatjana and Avdeef, Alex and Tam, Kin Y. and Marković, Olivera S. and Pešić, Miloš P. and Topalović, Igor A. and Veljković, Dušan Ž. and Kathawala, Mufaddal and Serajuddin, Abu T. M.",
year = "2023",
abstract = "Since the introduction of combinatorial chemistry and high-throughput screening in drug 
discovery in the early 1990s, the solubility of new chemical entities (NCE) decreased drastically 
while their lipophilicities increased greatly. Characterizing physicochemical properties of low soluble molecules can be especially challenging, since such molecules can undergo 
complicated reactions in aqueous solution, such as forming precipitates or complexes with 
buffer species or undergoing self-aggregation (dimer, trimer, etc.)1,2 or micelle formations. 
Most drugs are ionizable. Foremost to the rational interpretation of solution behavior of 
ionizable drugs in a physiologically-relevant pH domain requires an accurate aqueous pKa, 
determined by a suitable method. In a pH-dependent measurement of a property (e.g. 
solubility-, lipophilicity-, permeability-pH), when the apparent pKa value is different from the 
true aqueous pKa value, it may be an early clue that nonideal solution behavior may be taking 
place. In pharmaceutical research, it may seem cost-effective to use calculated pKa instead of 
measured values, but paradoxically, such preference can lead to inaccurate rationalization of 
the pH-dependent behavior of the drug molecule. For simple molecules, calculated values can 
be useful, but for today’s new drugs or for molecules prone to complicated solution behavior, 
the use of calculated pKas can substantially wrench the interpretation of solution properties. 
Clofazimine (CFZ), although discovered about 66 years ago, and used therapeutically for nearly 
40 years, exhibits some of the properties of relatively recent drug molecules by being 
extremely water insoluble and having variable pKa values reported. We have recently 
combined potentiometric titrations and UV/Vis spectrophotometry in methanol-water 
cosolvent media, accompanied by DFT calculations, to assess the hypothesis of CFZ free base 
dimerization. We reasoned that a soluble dimer might form from drug-drug adhesion along 
the hydrophobic molecular surface. With lessened exposure of the hydrophobic surface to 
water, the dimer would be more water soluble than the monomeric free base. In saturated 
solutions, the apparent solubility in alkaline pH would be elevated due to the presence of the 
dimer. The effect of that would be a lower pKa and reverse pKa cosolvent dependence – the 
behaviour we have noticed in CFZ aqueous solutions. These findings are of paramount 
importance for understanding of CFZ speciation and the future progress in developing its 
improved formulations which is the subject of our ongoing studies.",
publisher = "International Association of Physical Chemists",
journal = "10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023",
title = "Revealing the story of an orphan drug: clofazimine speciation  and solubilization as a function of pH",
pages = "15-15",
url = "https://hdl.handle.net/21.15107/rcub_cherry_5993"
}

Verbić, T., Avdeef, A., Tam, K. Y., Marković, O. S., Pešić, M. P., Topalović, I. A., Veljković, D. Ž., Kathawala, M.,& Serajuddin, A. T. M.. (2023). Revealing the story of an orphan drug: clofazimine speciation  and solubilization as a function of pH. in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023
International Association of Physical Chemists., 15-15.
https://hdl.handle.net/21.15107/rcub_cherry_5993

Verbić T, Avdeef A, Tam KY, Marković OS, Pešić MP, Topalović IA, Veljković DŽ, Kathawala M, Serajuddin ATM. Revealing the story of an orphan drug: clofazimine speciation  and solubilization as a function of pH. in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023. 2023;:15-15.
https://hdl.handle.net/21.15107/rcub_cherry_5993 .

Verbić, Tatjana, Avdeef, Alex, Tam, Kin Y., Marković, Olivera S., Pešić, Miloš P., Topalović, Igor A., Veljković, Dušan Ž., Kathawala, Mufaddal, Serajuddin, Abu T. M., "Revealing the story of an orphan drug: clofazimine speciation  and solubilization as a function of pH" in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023 (2023):15-15,
https://hdl.handle.net/21.15107/rcub_cherry_5993 .

TY  - CONF
AU  - Topalović, Igor A.
AU  - Marković, Olivera S.
AU  - Pešić, Miloš P.
AU  - Kathawala, Mufaddal
AU  - Serajuddin, Abu T. M.
AU  - Avdeef, Alex
AU  - Verbić, Tatjana
PY  - 2023
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/5994
AB  - Methods for drug solubilization have become important part of modern drug discovery and 
development due to increasing number of extremely insoluble drugs and drug candidates. 
One of such methods is acid-base supersolubilization (ABS) [1]. Clofazimine (CFZ) is weakly 
basic antibiotic and anti-inflammatory drug, most notably used in the treatment of leprosy
and tuberculosis, with recently proven inhibitory activity against several coronaviruses [2].
We have recently unraveled its aqueous pKa value and its unique cosolvent dependence [3]. 
The aim of the present study was to investigate CFZ solubilization using the ABS approach. 
Eight small organic acids were tested for the ABS effect (glutaric, malic, tartaric, citric, 
malonic, maleic, succinic, adipic) but only glutaric (GA), malic (MA), and tartaric (TA) acids 
showed some solubilization effect. The effect of their concentration (and the solution pH 
value) was further tested. The solubility of CFZ was determined in GA, MA, and TA solutions 
in wide concentration (1.0×10-2 – 5.0 M) and pH range (~0.2 – 4.8). Equilibration time was 
24 hours (6 h of stirring + 18 h of sedimentation). Phases were separated by filtration. The 
CFZ concentration in supernatant was determined by HPLC-UV/VIS. Results show that CFZ 
solubility increases as acid concentration increases: from 3.04×10-3 to 10.68 mg/mL (in GA), 
from 9.06×10-3 to 1.23 mg/mL (in MA) and from 4.76×10-3 to 0.32 mg/mL (in TA). The effect 
of CFZ solubilization is much more pronounced when the acid concentration is raised above 
2 M. These results can be used as the basis for further CFZ formulation optimization.
Furthermore, our ongoing research is focused on the type of interactions and other possible 
factors that can influence CFZ and other prectically insoluble drugs, embracing (super)solu bilization as a general methodology in drug design and development.
PB  - International Association of Physical Chemists
C3  - 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023
T1  - Clofazimine acid-base solubilization: influence  of small organic acids’ concentration
SP  - 66
EP  - 66
UR  - https://hdl.handle.net/21.15107/rcub_cherry_5994
ER  - 

@conference{
author = "Topalović, Igor A. and Marković, Olivera S. and Pešić, Miloš P. and Kathawala, Mufaddal and Serajuddin, Abu T. M. and Avdeef, Alex and Verbić, Tatjana",
year = "2023",
abstract = "Methods for drug solubilization have become important part of modern drug discovery and 
development due to increasing number of extremely insoluble drugs and drug candidates. 
One of such methods is acid-base supersolubilization (ABS) [1]. Clofazimine (CFZ) is weakly 
basic antibiotic and anti-inflammatory drug, most notably used in the treatment of leprosy
and tuberculosis, with recently proven inhibitory activity against several coronaviruses [2].
We have recently unraveled its aqueous pKa value and its unique cosolvent dependence [3]. 
The aim of the present study was to investigate CFZ solubilization using the ABS approach. 
Eight small organic acids were tested for the ABS effect (glutaric, malic, tartaric, citric, 
malonic, maleic, succinic, adipic) but only glutaric (GA), malic (MA), and tartaric (TA) acids 
showed some solubilization effect. The effect of their concentration (and the solution pH 
value) was further tested. The solubility of CFZ was determined in GA, MA, and TA solutions 
in wide concentration (1.0×10-2 – 5.0 M) and pH range (~0.2 – 4.8). Equilibration time was 
24 hours (6 h of stirring + 18 h of sedimentation). Phases were separated by filtration. The 
CFZ concentration in supernatant was determined by HPLC-UV/VIS. Results show that CFZ 
solubility increases as acid concentration increases: from 3.04×10-3 to 10.68 mg/mL (in GA), 
from 9.06×10-3 to 1.23 mg/mL (in MA) and from 4.76×10-3 to 0.32 mg/mL (in TA). The effect 
of CFZ solubilization is much more pronounced when the acid concentration is raised above 
2 M. These results can be used as the basis for further CFZ formulation optimization.
Furthermore, our ongoing research is focused on the type of interactions and other possible 
factors that can influence CFZ and other prectically insoluble drugs, embracing (super)solu bilization as a general methodology in drug design and development.",
publisher = "International Association of Physical Chemists",
journal = "10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023",
title = "Clofazimine acid-base solubilization: influence  of small organic acids’ concentration",
pages = "66-66",
url = "https://hdl.handle.net/21.15107/rcub_cherry_5994"
}

Topalović, I. A., Marković, O. S., Pešić, M. P., Kathawala, M., Serajuddin, A. T. M., Avdeef, A.,& Verbić, T.. (2023). Clofazimine acid-base solubilization: influence  of small organic acids’ concentration. in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023
International Association of Physical Chemists., 66-66.
https://hdl.handle.net/21.15107/rcub_cherry_5994

Topalović IA, Marković OS, Pešić MP, Kathawala M, Serajuddin ATM, Avdeef A, Verbić T. Clofazimine acid-base solubilization: influence  of small organic acids’ concentration. in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023. 2023;:66-66.
https://hdl.handle.net/21.15107/rcub_cherry_5994 .

Topalović, Igor A., Marković, Olivera S., Pešić, Miloš P., Kathawala, Mufaddal, Serajuddin, Abu T. M., Avdeef, Alex, Verbić, Tatjana, "Clofazimine acid-base solubilization: influence  of small organic acids’ concentration" in 10th IAPC Meeting: Tenth World Conference on Physico-Chemical Methods in Drug Discovery & Sixth World Conference on ADMET and DMPK Belgrade, Serbia, September 4-6, 2023 (2023):66-66,
https://hdl.handle.net/21.15107/rcub_cherry_5994 .

TY  - THES
AU  - Topalović, Igor A.
PY  - 2023
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/6079
AB  - Cilj ovog završnog rada bio je ispitivanje uticaja slabih organskih kiselina na rastvorljivost klofazimina, teško rastvornog antibiotika sa potencijalnom inhibitornom aktivnošću na SARS-CoV-2 virus. Rastvorljivost je određivana primenom shake-flask metode zasićenja, mešanjem rastvora odgovarajuće slabe organske kiseline i čvrstog klofazimina. Koncentracija leka u rastvoru nakon uspostavljanja ravnoteže u heterogenom sistemu određivana je pomoću HPLC-UV tehnike. Pokazalo se da glutarna, jabučna i vinska kiselina imaju značajniji uticaj na porast rastvorljivosti klofazimina u poređenju sa limunskom, malonskom i maleinskom kiselinom iste molarne koncentracije. Variranjem koncentracija slabih organskih kiselina u opsegu 1×10-2 – 5 M uočeno je da sa povećanjem koncentracije kiseline raste i rastvorljivost klofazimina. Najveća rastvorljivost leka postignuta je u 5 M glutarnoj kiselini (10,68 mg/mL). Eksperimenti su pokazali i da različito vreme mešanja tokom uspostavljanja ravnoteže u heterogenom sistemu (1–24 h) uglavnom nema presudan uticaj na rastvorljivost ovog leka.
T1  - Ispitivanje rastvorljivosti klofazimina u rastvorima slabih organskih kiselina - superrastvorljivost pospešena kiselo-baznim interakcijama
SP  - 1
EP  - 36
UR  - https://hdl.handle.net/21.15107/rcub_cherry_6079
ER  - 

@misc{
author = "Topalović, Igor A.",
year = "2023",
abstract = "Cilj ovog završnog rada bio je ispitivanje uticaja slabih organskih kiselina na rastvorljivost klofazimina, teško rastvornog antibiotika sa potencijalnom inhibitornom aktivnošću na SARS-CoV-2 virus. Rastvorljivost je određivana primenom shake-flask metode zasićenja, mešanjem rastvora odgovarajuće slabe organske kiseline i čvrstog klofazimina. Koncentracija leka u rastvoru nakon uspostavljanja ravnoteže u heterogenom sistemu određivana je pomoću HPLC-UV tehnike. Pokazalo se da glutarna, jabučna i vinska kiselina imaju značajniji uticaj na porast rastvorljivosti klofazimina u poređenju sa limunskom, malonskom i maleinskom kiselinom iste molarne koncentracije. Variranjem koncentracija slabih organskih kiselina u opsegu 1×10-2 – 5 M uočeno je da sa povećanjem koncentracije kiseline raste i rastvorljivost klofazimina. Najveća rastvorljivost leka postignuta je u 5 M glutarnoj kiselini (10,68 mg/mL). Eksperimenti su pokazali i da različito vreme mešanja tokom uspostavljanja ravnoteže u heterogenom sistemu (1–24 h) uglavnom nema presudan uticaj na rastvorljivost ovog leka.",
title = "Ispitivanje rastvorljivosti klofazimina u rastvorima slabih organskih kiselina - superrastvorljivost pospešena kiselo-baznim interakcijama",
pages = "1-36",
url = "https://hdl.handle.net/21.15107/rcub_cherry_6079"
}

Topalović, I. A.. (2023). Ispitivanje rastvorljivosti klofazimina u rastvorima slabih organskih kiselina - superrastvorljivost pospešena kiselo-baznim interakcijama. , 1-36.
https://hdl.handle.net/21.15107/rcub_cherry_6079

Topalović IA. Ispitivanje rastvorljivosti klofazimina u rastvorima slabih organskih kiselina - superrastvorljivost pospešena kiselo-baznim interakcijama. 2023;:1-36.
https://hdl.handle.net/21.15107/rcub_cherry_6079 .

Topalović, Igor A., "Ispitivanje rastvorljivosti klofazimina u rastvorima slabih organskih kiselina - superrastvorljivost pospešena kiselo-baznim interakcijama" (2023):1-36,
https://hdl.handle.net/21.15107/rcub_cherry_6079 .

TY  - CONF
AU  - Topalović, Igor A.
AU  - Marković, Olivera S.
AU  - Pešić, Miloš P.
AU  - Verbić, Tatjana
PY  - 2022
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/5937
AB  - Nowadays, more than two-thirds of potential drugs currently being discovered are 
practically insoluble in water with solubility <100 μg/mL. Despite that, compounds with 
even lower solubility (<0.1 μg/mL) are commonly selected for further development 
which is very challenging, especially in the pharmaceutical formulation process1
. 
Clofazimine (CFZ), an anti-leprosy drug with inhibitory activity against several 
coronaviruses, has a favourable safety profile2
, but it is poorly soluble in aqueous media. 
Hence, it is important to develop a method for increasing its solubility. In this work, a 
relatively novel approach of enhancing solubility of weakly basic drugs by using weak 
acids that would not form salts with the drug (acid-base supersolubilization (ABS)) has
been applied. CFZ aqueous solubility was determined in solutions of tartaric, citric, 
malic, malonic or maleic acid: in set I acid solutions had the same concentration (2.5 
mol/L), and in the set II they were scaled to the same pH (1.0). The drug was added in 
stirred acid solution until a precipitate was noticed and, after filtration, CFZ 
concentration in samples was determined by HPLC. Based on set I, it was found that the 
solubility of CFZ had the highest value in the case of tartaric acid (0.46 mg/mL) 
compared to other acid solutions of the same concentration. In set II the highest CFZ 
concentration was determined in the malic acid solution which had the highest 
concentration (2.8 mol/L) among other acids. On contrary, maleic acid solution at 
pH=1.0 had the lowest molar concentration (0.5 mol/L) and therefore CFZ was 
minimally dissolved. Further research will be directed toward the examination of acid 
structure effect on CFZ solubility.
PB  - Belgrade : Serbian Chemical Society
PB  - Belgrade : Serbian Young Chemists’ Club
C3  - 8th Conference of Young Chemists of Serbia, Belgrade, Serbia, 29th October, 2022. In: Book of Abstracts
T1  - Investigation of  clofazimine acid-base supersolubilization using various weak organic acids
SP  - 37
EP  - 37
UR  - https://hdl.handle.net/21.15107/rcub_cherry_5937
ER  - 

@conference{
author = "Topalović, Igor A. and Marković, Olivera S. and Pešić, Miloš P. and Verbić, Tatjana",
year = "2022",
abstract = "Nowadays, more than two-thirds of potential drugs currently being discovered are 
practically insoluble in water with solubility <100 μg/mL. Despite that, compounds with 
even lower solubility (<0.1 μg/mL) are commonly selected for further development 
which is very challenging, especially in the pharmaceutical formulation process1
. 
Clofazimine (CFZ), an anti-leprosy drug with inhibitory activity against several 
coronaviruses, has a favourable safety profile2
, but it is poorly soluble in aqueous media. 
Hence, it is important to develop a method for increasing its solubility. In this work, a 
relatively novel approach of enhancing solubility of weakly basic drugs by using weak 
acids that would not form salts with the drug (acid-base supersolubilization (ABS)) has
been applied. CFZ aqueous solubility was determined in solutions of tartaric, citric, 
malic, malonic or maleic acid: in set I acid solutions had the same concentration (2.5 
mol/L), and in the set II they were scaled to the same pH (1.0). The drug was added in 
stirred acid solution until a precipitate was noticed and, after filtration, CFZ 
concentration in samples was determined by HPLC. Based on set I, it was found that the 
solubility of CFZ had the highest value in the case of tartaric acid (0.46 mg/mL) 
compared to other acid solutions of the same concentration. In set II the highest CFZ 
concentration was determined in the malic acid solution which had the highest 
concentration (2.8 mol/L) among other acids. On contrary, maleic acid solution at 
pH=1.0 had the lowest molar concentration (0.5 mol/L) and therefore CFZ was 
minimally dissolved. Further research will be directed toward the examination of acid 
structure effect on CFZ solubility.",
publisher = "Belgrade : Serbian Chemical Society, Belgrade : Serbian Young Chemists’ Club",
journal = "8th Conference of Young Chemists of Serbia, Belgrade, Serbia, 29th October, 2022. In: Book of Abstracts",
title = "Investigation of  clofazimine acid-base supersolubilization using various weak organic acids",
pages = "37-37",
url = "https://hdl.handle.net/21.15107/rcub_cherry_5937"
}

Topalović, I. A., Marković, O. S., Pešić, M. P.,& Verbić, T.. (2022). Investigation of  clofazimine acid-base supersolubilization using various weak organic acids. in 8th Conference of Young Chemists of Serbia, Belgrade, Serbia, 29th October, 2022. In: Book of Abstracts
Belgrade : Serbian Chemical Society., 37-37.
https://hdl.handle.net/21.15107/rcub_cherry_5937

Topalović IA, Marković OS, Pešić MP, Verbić T. Investigation of  clofazimine acid-base supersolubilization using various weak organic acids. in 8th Conference of Young Chemists of Serbia, Belgrade, Serbia, 29th October, 2022. In: Book of Abstracts. 2022;:37-37.
https://hdl.handle.net/21.15107/rcub_cherry_5937 .

Topalović, Igor A., Marković, Olivera S., Pešić, Miloš P., Verbić, Tatjana, "Investigation of  clofazimine acid-base supersolubilization using various weak organic acids" in 8th Conference of Young Chemists of Serbia, Belgrade, Serbia, 29th October, 2022. In: Book of Abstracts (2022):37-37,
https://hdl.handle.net/21.15107/rcub_cherry_5937 .