WCK 4034: A promising oxazolidinone for treating gram positive infections.

Increased resistance to gram positive infections have highlighted the limitations of currently available drug treatments including penicillins, macrolides and glycopeptides. As an alternative to address these challenges; Linezolid, the first antibiotic from oxazolidinone class, have shown the promising activities against such infections, although associated toxicological issues limiting the use of linezolid for prolonged treatments. In order to circumvent disadvantages allied with the marketed drugs, we herein reporting the synthesis of WCK 4034, an oxazolidinone antibiotic through our structure activity relationship (SAR) program. Through this exercise, WCK 4034, has shown competitive MIC values against Methicillin Sensitive S. aureus (MSSA, Sta-001), Methicillin Resistant S. aureus (MRSA, Sta-032), S. pneumoniae ATCC 49619 and H. influenza ATCC 35054 species as like linezolid. Although with an additional advantage; WCK 4034 has been found superior during dog PK studies as compare to Linezolid. With the preliminary studies in our hand, we herein assuming these improved pharmacokinetic values would be helpful. Moreover, WCK 4034 has successfully completed pre-clinical studies and ready to enter the clinical space, and paved the way for in house development of other oxazolidinone NCEs.

Preclinical safety evaluation of levonadifloxacin, a novel anti-methicillin-resistant Staphyloccocus aureus benzoquinolizine fluoroquinolone by intravenous and oral administration.

Fluoroquinolone (FQ) antibacterials have drawn heightened attention from various international regulatory agencies due to their class-specific side effects. Levonadifloxacin is a novel broad spectrum benzoquinolizine FQ active against methicillin-resistant Staphyloccocus aureus (MRSA). Owing to FQ-associated safety concerns, extensive preclinical safety pharmacology (central nervous system and cardiac safety) and toxicology studies (subacute repeat-dose toxicity, genotoxicity, phototoxicity and chondrotoxicity) of levonadifloxacin were performed at relatively high doses. Intravenous (IV) and oral studies were conducted using WCK 771 (l-arginine salt of levonadifloxacin) and WCK 2349 (l-alanine ester prodrug of levonadifloxacin), respectively. Safety pharmacology studies following single dose revealed no adverse effects on central nervous system (including seizure) in mice and cardiovascular system (hERG and monkey telemetry). In repeat-dose toxicity studies, except for IV bolus dosing related effects in rat (hyperactivity, mild convulsion, polypnoea and injection site irritation) and dog (emesis and salivation), no other adverse findings limiting the dosing duration were observed. No major biochemical, haematological, gross or histopathological changes suggestive of damage to vital organs were observed in either WCK 771- or WCK 2349-treated groups. WCK 771 and WCK 2349 were found to be nongenotoxic; however, they showed weak phototoxicity that was comparable with levofloxacin. WCK 771 showed chondrotoxicity in the Beagle dog pups on repeat-dose administration; however, the severity level was lower than ofloxacin. Overall, preclinical safety studies helped establish wider safety margin for WCK 771 and WCK 2349 that supports administration of higher therapeutic doses in humans by both IV and oral routes, thereby enabling safe anti-MRSA treatment.

Assessment of wound healing efficacy of Growth Factor Concentrate (GFC) in non-diabetic and diabetic Sprague Dawley rats.

BACKGROUNDS: The investigation of wound healing potential of human GFC (growth factor concentrate) was undertaken in diabetic and non-diabetic rats. Primarily, GFC is the combination of several growth factors present in blood which has potential of wound healing. In present study, WCK-GFC kit, a single step optimized kit was used for obtaining human GFC. METHODS: Diabetes in rats was induced by intraperitoneal single injection of 40 mg/kg streptozotocin (STZ). The full thickness circular wounds of 2 cm2 area were created using sterilized stainless steel biopsy punch. Non-diabetic wounds were topically treated with 100µL and 300µL of GFC, while diabetic wounds were treated with 300µL of GFC. The standard of care treatment groups were included, wherein the non-diabetic and diabetic wound were topically treated with Nadoxin and Z-AD-G skin cream, respectively. The percentage of wound contraction was measured on weekly intervals. At the end of study duration, tissues from wound were collected for histopathological evaluation. RESULTS: Both diabetic and non-diabetic GFC treated rats exhibited a significantly higher rate of wound contraction on day 8 and 15 compared to normal untreated control group and standard-of-care treated rats. Wound healing was induced by GFC through rapid re-epithelialization. On comparing wound healing with standard-of care agent, the GFC treated wounds demonstrated a faster remodeling phase, a better organization and lower inflammation. CONCLUSIONS: The current study demonstrates that topically applied GFC promotes healing of wounds, with enhanced wound contraction in both non-diabetic and diabetic rats.

Preclinical safety evaluation of nafithromycin (WCK 4873) with emphasis on liver safety in rat and dog.

Ketolide antibiotics are known to cause hepatic injury. Nafithromycin, a novel lactone ketolide was therefore assessed for hepatic safety through range of preclinical in vitro (metabolic stability, CYP inhibition/induction assays) and in vivo (mass balance and repeat dose toxicity) studies. Repeat-dose toxicity studies in rat and dog revealed that nafithromycin did not cause adverse hematological, biochemical and histopathological changes suggestive of systemic or hepatobiliary safety concern at exposures 3-8 fold higher than targeted therapeutic exposures. The only histological finding noticed was reversible phospholipidosis, mainly in lung and lymphoid organs but not in liver, indicating lower nafithromycin accumulation in liver. This observation was corroborated with lack of biologically relevant elevation of hepatic enzymes linked to hepatic injury. In vitro studies showed that nafithromycin undergoes moderate CYP3A mediated metabolism. Unlike other ketolides, nafithromycin and its metabolites showed weak inhibition of CYP3A isoform and lacked CYP2D6 inhibition. Due to hydrophilic nature, nafithromycin in addition to hepatic clearance is also eliminated unchanged by kidneys in significant amount, thereby minimizing hepatic burden. Based on the scientifically integrated evidences such as moderate metabolism, weak CYP inhibition, lack of CYP induction, minimal accumulation in liver, nafithromycin showed promising hepatic safety profile suitable for its intended community-based usage.

Levonadifloxacin, a Novel Broad-Spectrum Anti-MRSA Benzoquinolizine Quinolone Agent: Review of Current Evidence.

Levonadifloxacin and its prodrug alalevonadifloxacin are novel broad-spectrum anti-MRSA agents belonging to the benzoquinolizine subclass of quinolone, formulated for intravenous and oral administration, respectively. Various in vitro and in vivo studies have established their antimicrobial spectrum against clinically significant Gram-positive, Gram-negative, atypical, and anaerobic pathogens. The potent activity of levonadifloxacin against MRSA, quinolone-resistant Staphylococcus aureus, and hetero-vancomycin-intermediate strains is an outcome of its well-differentiated mechanism of action involving preferential targeting to DNA gyrase. Potent anti-staphylococcal activity of levonadifloxacin was also observed in clinically relevant experimental conditions such as acidic pH, the intracellular environment, and biofilms, suggesting that the drug is bestowed with enabling features for the treatment of difficult-to-treat MRSA infections. Levonadifloxacin also retains clinically relevant activity against resistant respiratory pathogens such as macrolide- and penicillin-resistant Streptococcus pneumoniae, Streptococcus pyogenes, Haemophilus influenzae, and Moraxella catarrhalis and, in conjunction with clinically established best-in-class human epithelial lung fluid concentration, has promising potential in the management of recalcitrant respiratory infections. Attractive features, such as resistance to NorA efflux, divergent mechanism of action in S. aureus, cidality against high-inoculum cultures, and low mutant prevention concentration, are likely to confer favorable resistance-suppression features to both agents. In vivo studies have shown promising efficacy in models of acute bacterial skin and skin structure infection, respiratory infections, pyelonephritis, and peritonitis at human-equivalent mouse doses. Both formulations were well tolerated in multiple phase I studies and overall showed a dose-dependent exposure. In particular, oral alalevonadifloxacin showed excellent bioavailability (~90%), almost mirroring the pharmacokinetic profile of intravenous levonadifloxacin, indicating the prodrug's seamless absorption and efficient cleavage to release the active parent drug. Hepatic impairment studies showed that clinical doses of levonadifloxacin/alalevonadifloxacin are not required to be adjusted for various degrees of hepatic impairment. With the successful completion of phase II and phase III studies for both levonadifloxacin and alalevonadifloxacin, they represent clinically attractive therapeutic options for the treatment of infections caused by multi-drug-resistant Gram-positive organisms. Herein, we review the current evidence on therapeutically appealing attributes of levonadifloxacin and alalevonadifloxacin, which are based on a range of non-clinical in vitro and in vivo investigations and clinical studies.