Correction to 1,2,3-Triazole Tethered Hybrid Capsaicinoids as Antiproliferative Agents Active against Lung Cancer Cells (A549).

[This corrects the article DOI: 10.1021/acsomega.2c03325.].

Therapeutic Potential of HMF and Its Derivatives: a Computational Study.

Over the past century, chemicals and energy have increasingly been derived from non-renewable resources. The growing demand for essential chemicals and shrinking inventory make reliable, sustainable sources essential. Carbohydrates offer by far the greatest carbon supply. Furan compounds, a particular family of dehydration products, are believed to offer high chemical potential. Here, we analyze 5-HMF (5, hydroxymethylfurfural) and some of its derivatives in particular, a furan-type platform chemical. To analyze the therapeutic potential of HMF and its derivatives, this study utilized cutting-edge technologies such as computer-aided drug design, virtual screening, molecular docking, and molecular dynamic simulation. We conducted 189 docking simulations and examined some of the most promising dock poses using the molecular dynamic simulator. As for the receptors for our compounds, the leading candidates are human acetylcholinesterase, beta-lactamases, P. aeruginosa LasR, and S. aureus tyrosyl-tRNA synthetases. Out of all derivatives considered in this study, 2,5-furandicarboxylic acid (FCA) performed best.

Enhanced Algal Biomass Production in a Novel Electromagnetic Photobioreactor (E-PBR).

Enhancement in algal biomass production is a crucial parameter for generating value-added chemicals from renewable carbon sources. This study aimed to fabricate a novel photobioreactor with integrated and innovative electromagnets to assess microalgae's growth under the magnetic field's effect. The present study observed the effect of magnetic field exposure on the microalgae Chlorella sorokiniana cultivation and estimated the change in pigments with growth. In addition, the carbohydrate content of Chlorella sorokiniana was also evaluated. Chlorella sorokiniana culture, when exposed to a magnetic field strength of 10 mT d-1 resulted in a greater biomass concentration and productivity of about 12% and 8%, respectively, higher than the control culture. A positive effect of magnetic field exposure was also observed in the microalga's pigments concentration and carbohydrate content. The chlorophyll-a content increased twofold exponentially with the growth and the carbohydrate content of the microalgae cells also increased by 15% compared to the control culture. Therefore, the novel Electromagnetic Photobioreactor (E-PBR) can be used to produce enhanced biomass and other value-added products.

1,2,3-Triazole Tethered Hybrid Capsaicinoids as Antiproliferative Agents Active against Lung Cancer Cells (A549).

A series of novel 1,2,3-triazole derivatives of capsaicin and its structural isomer (new natural product hybrid capsaicinoid) were synthesized by exploiting one-/two-point modification of capsaicin without altering the amide linkage (neck). The newly synthesized compounds were screened for their antiproliferative activity against an NCI panel of 60 cancer cell lines at a single dose of 10 µM. Most of the compounds have demonstrated reduced growth between 55 and 95%, whereas capsaicin (10) has shown reduced growth between 0 and 24%. Compounds showing more than 50% growth inhibition were further evaluated for the IC50 value. Among the cell lines tested, lung cancer cell lines (A549, NCI-H460) were found to be more susceptible toward most of the synthesized compounds. Compounds 14g and 14j demonstrated good antiproliferative activity in NCI-H460 with IC50 values of 6.65 and 5.55 µM, respectively, while compounds 18b, 18c, 18f, and 18m demonstrated potential antiproliferative activity in A549 cell lines with IC50 values ranging between 2.9 and 10.5 µM. Among the compounds, compound 18f was found to demonstrate the best activity with an IC50 value of 2.91 µM against A549. Furthermore, 18f induces cell cycle arrest at the S-phase and disrupts the mitochondrial membrane potential, reducing cell migration potential by inducing cellular apoptosis and higher ROS generation along with a decrease in mitochondrial membrane potential in addition to surface and nuclear morphological alterations such as a reduction in the number and shrinkage of cells coupled with nuclear blabbing indicating the sign of apoptosis of A549 non-small cell lung cancer cell lines. Compound 18f has emerged as a lead molecule and may serve as a template for further discovery of capsaicinoid scaffolds.

2-Pyridin-4-yl-methylene-beta-boswellic Acid-A Potential Candidate for Targeting O6-Methylguanine-DNA Methyltransferase Epi-transcriptional Reprogramming in KRAS G13D-Microsatellite Stable, G12V-Microsatellite Instable Mutant Colon Cancer.

PMBA (2-Pyridin-4-yl-methylene-beta-boswellic acid), screened from among the 21 novel series of semisynthetic analogues of ß-boswellic acid, is being presented as a lead compound for integrative management of KRAS mutant colorectal cancer (CRC), upon testing and analysis for its anticancerous activity on a panel of NCI-60 cancer cell lines and in vivo models of the disease. PMBA (1.7-29 µM) exhibited potent proliferation inhibition on the cell lines and showed sensitivity in microsatellite instability and microsatellite stable (GSE39582 and GSE92921) subsets of KRAS gene (Kirsten rat sarcoma viral oncogene homolog)-mutated colon cell lines, as revealed via flow cytometry analysis. A considerable decrease in mitogen-activated protein kinase pathway downstream effectors was observed in the treated cell lines via the western blot and STRING (Search tool for the retrieval of interacting genes/proteins) analysis. PMBA was further found to target KRAS at its guanosine diphosphate site. Treatment of the cell lines with PMBA showed significant reduction in MGMT promoter methylation but restored MGMT (O6-methylguanine-DNA methyltransferase) messenger ribonucleic acid expression via significant demethylation of the hypermethylated CpG (Cytosine phosphate guanine) sites in the MGMT promoter. A significant decrease in dimethylated H3K9 (Dimethylation of lysine 9 on histone 3) levels in the MGMT promoter in DNA hypo- and hypermethylated HCT-116G13D and SW-620G12V cells was observed after treatment. In the MNU (N-methyl-N-nitrosourea)-induced CRC in vivo model, PMBA instillation restricted and repressed polyp formation, suppressed tumor proliferation marker Ki67 (Marker of proliferation), ablated KRAS-associated cytokine signaling, and decreased mortality. Clinical trial data for the parent molecule revealed its effectiveness against the disease, oral bioavailability, and system tolerance. Comprehensively, PMBA represents a new class of KRAS inhibitors having a therapeutic window in the scope of a drug candidate. The findings suggest that the PMBA analogue could inhibit the growth of human CRC in vivo through downregulation of cancer-associated biomarkers as well as reactivate expression of the MGMT gene associated with increased H3K9 acetylation and H3K4 methylation with facilitated transcriptional activation, which might be important in silencing of genes associated with upregulation in the activity of KRAS.

Synergistic combination of PMBA and 5-fluorouracil (5-FU) in targeting mutant KRAS in 2D and 3D colorectal cancer cells.

ß-Boswellic acid (ß-BA), a potent NF-kB signaling pathway inhibitor, has shown synergistic anti-cancerous activity (NCT03149081, NCT00243022 and NCT02977936) in various clinical trials as complementary therapies. The study has been conducted to investigate the effect and efficacy of 2-pyridin-4-yl methylene ß-boswellic acid (PMBA) and 5-Flourouracil (5-FU) in combination therapy for the treatment of KRAS mutant colon cancer. Analysis of isobologram showed synergistic combination index (CI > 1) of PMBA and 5-FU against the HCT-116 G13D and SW-620 G12V cell lines. The growth-inhibiting PMBA also caused apoptosis mediating effects with dose-dependent increase in caspase-3 activity, while inhibiting the formation of colonies in combination with 5-FU. As evident, PMBA affected colorectal 3D CSC properties including the ability to self-renew along with the expression of multi-drug resistance genes, viz., ABCB1, ABCC1 and ALDH1A1, ALDH1A2, ALDH1A3, ALDH3A1, and CSC markers like CD44, CD166, EPCAM, OCT-4, SOX-2, and NANOG compared with those in 2D model explaining the expression pattern of oncogenic KRAS G13D, G12V mutation. When examined for plasma level of PMBA (20 mg) and PMBA+5-FU (20 + 40 mg), a time-dependent increase in the level of the drug (5-FU) was detected, indicating its absorption and bioavailability with excellent half-life of the PMBA for both routes of administration (IV and Oral), thereby indicating a new adjuvant therapy for KRAS mutant colon cancer.

Pre-clinical and cellular toxicity evaluation of 7-methylxanthine: an investigational drug for the treatment of myopia.

The present study entails the toxicity evaluation of 7-methyl xanthine (7-MX), first of its kind molecule found effective in phase II clinical trials for the treatment of myopia, in comparison to other clinically used xanthines i.e., caffeine and theobromine. For acute toxicity evaluation, 7-MX was administered orally in two rodent species (rat and mice) at the doses of 300 mg/kg and 2000 mg/kg and for repeated dose 28-d oral toxicity, at 250, 500, and 1000 mg/kg in rats. Further, cellular toxicity was evaluated in normal breast epithelial (fR2), rat brain C6 glioma (C6 glioma) and human colorectal (Caco-2) cell lines. Also, the cell uptake assay to determine the intestinal permeability of drug was performed in Caco-2 cells. In acute toxicity, 7-MX treatment showed no mortality and toxicity, whereas 66.6% (mice) and 33.3% (rat) mortality was observed in both caffeine and theobromine treatment groups. In repeated dose 28-d oral toxicity, 7-MX treatment was found to have no-observed-adverse-effect level up to the dose of 1000 mg/kg in the present study conducted as per OECD guidelines 407. Also, very high IC50 value of 305.5 and 721 µg/mL was observed for 7-MX in fR2 and C6 glioma cells, respectively. In Caco-2 cells, linear bioavailability and high % cell viability was observed. Thus, 7-MX may be classified as Globally Harmonized System (GHS) category 5 drug with LD50 >2000-5000 mg/kg. Also, the repeated dose 28-d oral toxicity study demonstrated 7-MX to be nontoxic in nature, with cell line toxicity results further endorsing its nontoxic nature.

Acute suppurative oesophagitis with fever and cough: A case report.

BACKGROUND: Suppurative oesophagitis is a diffuse inflammation of the oesophagus characterized by suppurative exudate or pus formation. Suppurative infections can affect any part of the gastrointestinal tract, most commonly the stomach, with inflammation involving the entire gastric cavity. However, cases extending beyond the cardia or pylorus and involving the oesophagus, small intestine, and colon are rare. Usually such cases are discovered during surgery or autopsy. CASE SUMMARY: We report a rare case of acute suppurative oesophagitis. A 57-year-old man presented at the Emergency Department of our hospital with fever and productive cough. The patient had a significant history of lower oesophageal mucosal frostbite. He was successfully diagnosed and treated with repeated gastroscopy, appropriate antibiotics, and innovative symptomatic treatment. CONCLUSION: Early diagnosis and appropriate treatment of acute suppurative oesophagitis are critical. Nutritional support, postural drainage, and other symptomatic treatments must be considered.

4-aryl/heteroaryl-4H-fused Pyrans as Anti-proliferative Agents: Design, Synthesis and Biological Evaluation.

AIMS: The current study is focused on the design and synthesis of 4-aryl/heteroaryl-4H-fused pyrans as anti-proliferative agents. All the synthesized molecules were screened against a panel of human carcinoma cell lines. DESCRIPTION: Significant inhibition was exhibited by the compounds against HCT-116 (Colon) and PC-3 (Prostate) cell lines while A-549 (Lung) cell lines, MiaPaCa-2 (Pancreatic) cell lines and HL-60 (Leukemia Cancer) cell lines were almost resistant to the exposure of the test compounds. Compound FP-(v)n displayed noteworthy cytotoxicity towards HCT-116 malignant cells with the IC50 value of 0.67 µM. It induces apoptosis as revealed by several biological endpoints like apoptotic body formation, through DAPI staining, phase contrast microscopy and mitochondrial membrane potential loss. Moreover FP-(v)n is a potent apoptotic inducer confirmed by cell cycle arrest and ROS generation. The cell phase distribution studies indicate an augment from 4.94 % (control sample) to 39.68 % (sample treated with 1.5 µM compound FP-(v)n) in the apoptotic population. Compound FP-(v)n inhibits the tumor growth in Ehrlich ascites carcinoma (EAC), Ehrlich Tumor (ET, solid) and sarcoma-180 (solid) mice models. Additionally, it was established to be non-toxic at maximum tolerated dose of 1000 mg/kg in acute oral toxicity in Swiss-albino mice. CONCLUSION: The current study provides an insight into anti-cancer potential of FP-(v)n, which might be valuable in the treatment of tumor.

Dendrimer encapsulated and conjugated delivery of berberine: A novel approach mitigating toxicity and improving in vivo pharmacokinetics.

Berberine (BBR) is a nitrogenous cyclic natural alkaloid with potential anticancer activity. However it has been less explored due to its poor pharmacokinetic profile. Dendrimers (e.g. PAMAM) have promising potential to deliver anticancer drugs/bio-actives because of their well-defined architecture, monodispersity and tailor-made surface functionality. In the present study it was attempted to deliver berberine through G4 PAMAM dendrimers by conjugation (BPC) as well as encapsulation (BPE) approach. The developed encapsulated and conjugated berberine formulations were found to have size in the approximate range of 100-200nm while zeta potential was almost same as PAMAM G4 dendrimer. The entrapment efficiency in BPE was found to be 29.9%, whereas, the percentage conjugation in BPC was found to be 37.49% indicating high drug payload in conjugation. The developed nano-formulations were characterized through 1H NMR, FT-IR as well as electron microscopy (SEM and TEM). The in vitro release study in different media (water and PBS 7.4) showed sustained release pattern of BBR. Almost 72% and 98% drug was released within 24h respectively; whereas in PBS almost 80% and 98% release was observed within 24h, respectively. The formulations followed Higuchi release and first order release as best fit release kinetic model. MTT assay results showed significantly higher anticancer activity for the PAMAM-BBR (BPC) (p<0.01) against MCF-7 and MDA-MB-468 breast cancer cells. The time dependent ex vivo hemolytic toxicity of the BPC and BPE was significantly less (<5%) even after 24h, which indicated that the formulations can be regarded as significantly safe and biocompatible. Similarly, the in vivo hematological parameters were analyzed through auto-analyzer and the formulations were found to be safer and biocompatible with very least but insignificant (p>0.05) effects. The in vivo pharmacokinetic parameters were found to be impressively improved in albino rat model. The pharmacokinetic parameters such as half-life (t1/2) and AUC of berberine were impressively improved in the plasma level time in vivo studies in albino rat model. The obtained t1/2 was 14.33h for BPC compared to 6.7h for BBR alone. The overall conclusion says that among both the developed formulations the conjugated formulation (BPC) was found to be more prominent than the encapsulated one (BPE). Therefore conclusively conjugation can be a better option for the delivery of natural bio-actives through dendrimers.

Modulation of glycolysis and lipogenesis by novel PI3K selective molecule represses tumor angiogenesis and decreases colorectal cancer growth.

Phosphatidylinositol 3-kinase (PI3K) pathway drives cancer progression through direct regulation of most oncogenic properties. Here, we report that PI3K pathway signaling up-regulates cancer cell proliferation, metastasis and angiogenesis through modulation of cancer metabolism. These oncogenic metabolic processes were disrupted, by a novel PI3K inhibitor, 3-Dihydro-2-(naphthalene-1-yl) quinazolin-4(1H)-one (DHNQ) in colon cancer cells. DHNQ inhibited the Warburg effect and lipid synthesis by reducing gene expression of glycolytic and lipogenesis regulatory enzymes. This downregulation at gene level by DHNQ inhibited metabolic flux to repress proliferation, migration and invasion characteristics of colon cancer. Furthermore, the metabolic attenuation caused repression of in vitro/in vivo angiogenesis providing new insights in PI3K regulated angiogenesis via metabolic alterations. Our results suggest that multifaceted targeting of oncogenic metabolism by their upstream PI3K regulatory signaling may be an effective cancer treatment approach.

A novel PI3K axis selective molecule exhibits potent tumor inhibition in colorectal carcinogenesis.

Phosphatidylinositol-3-kinase (PI3K) pathway deregulation is responsible for initiation, chemo-resistance, and poor prognosis of colorectal cancer (CRC). Therefore, PI3K pathway inhibition can provide a plausible way of attaining CRC treatment. We report PI3K target specific synthesis and selection of a potent molecule, that is, 2,3-dihydro-2-(naphthalene-1-yl) quinazolin-4(1H)-one (DHNQ) from quinazolinone series based on the structural activity relationship after evaluation in diverse cancers. This molecule inhibited the PI3K enzyme activity and transcriptional as well as translational expression levels in colorectal cancer (CRC) models. This was associated with subsequent decrease in phosphorylation of its downstream effector proteins, that is, p-Akt(Ser-473) and p-mTORC1(Ser-2448) and decreased ERK signaling. Furthermore, DHNQ decreased expression of cyclins that caused G1 arrest and decreased Bcl-2/Bax ratio after mitochondrial membrane potential loss, reactive oxygen species generation, and an increase in cytosolic Ca2+ loads that is responsible for the decreased CRC cell proliferation and survival. These biochemical changes triggered apoptotic cell death with altered autophagic Beclin-1 and LC3ß expression. It seemed that the PI3K-Akt signaling regulated apoptosis and autophagy through different mechanisms but mTORC1 mediated autophagy appeared not to be involved in the cell death induction by DHNQ. The molecule also showed significant anticancer efficacy in in vivo tumor models without any mortality indicating its non-toxic nature with possible clinical significance. Overall, the selective elucidation of DHNQ molecular mechanism will provide the possible strategies for the clinical development in CRC that may respond to this specific, potent and novel P13K inhibitor. © 2016 Wiley Periodicals, Inc.

Synthesis of ß-boswellic acid derivatives as cytotoxic and apoptotic agents.

A series of ß-boswellic acid derivatives were synthesized and evaluated for anticancer activity. One of the lead analog 4f displayed significant anticancer activity against a panel of cancer cells as well as substantially inhibited colony formation in HCT-116 cells. Furthermore, 4f was found to be a potent inducer of apoptosis confirmed by loss of mitochondrial membrane potential, DAPI staining, Western blotting and ROS generation.

Quinazoline based small molecule exerts potent tumour suppressive properties by inhibiting PI3K/Akt/FoxO3a signalling in experimental colon cancer.

Deregulation of PI3K signalling pathway is strongly involved in pathology of cancer and development of resistance in tumour cells. Here, we report that pharmacologically active vasicinone analogue, RLX (7, 8, 9, 10-Tetrahydroazepino [2, 1-b] quinazolin-12-(6H)-on), exhibited potent anticancer activities both in vitro and in vivo. In this study, RLX treatment displayed strong inhibition of proliferation against various cancer cell lines. However, colon cancer cells were found to be the most sensitive towards RLX mediated inhibition of proliferation. The result showed that RLX treatment followed strong concentration dependent inhibition of HCT-116 cell proliferation and colony formation. RLX treatment to HCT-116 was observed to be associated with down-regulation of p110α and p85 subunits of PI3K thereby decreasing the expression of subsequent downstream effector proteins. Interestingly, silencing of PI3K gene by siRNA in combination with RLX confirmed the anti-proliferation effect of RLX against HCT-116 cells and is mediated by the PI3K pathway. We also found that RLX induced sub-G1 arrest and mitochondrial potential loss followed by pFoxO3a(Thr32) nuclear-cytoplasmic translocation inhibition. Moreover, RLX treatment in in vivo models substantially resulted in a tumour growth inhibition. Overall, our findings reveal the functional role of the PI3K/Akt/FoxO3a pathway that gets deregulated in cancer and suggests its simultaneous targeting by RLX thereby further identifying the compound as a potent inhibitor of the PI3K/Akt/FoxO3a pathway under in vitro and tumour regression in vivo.

Recent development in targeting PI3K-Akt-mTOR signaling for anticancer therapeutic strategies.

Cancer is a diverse class of diseases which differ widely in their cause and biology. The aberrant behavior of cancer reflects up regulation of certain oncogenic signaling pathways that promote proliferation, inhibit apoptosis, and enable the cancer to spread and evoke angiogenesis. Phosphoinositide-3-kinase(PI3K)/Akt/mammalian target of rapamycin (mTOR) pathway controls various biological processes that are important for normal functioning of the cell via cell cycle progression, survival, migration, transcription, translation and metabolism. However, PI3K signaling pathway is dysregulated almost in all cancers which is due to the amplification and genetic mutation of PI3K gene, encoding catalytic and regulatory subunit of PI3K isoforms. The current review focuses on the structural features of various PI3K isoforms including Akt and mTOR and their inhibition using specific small molecule inhibitors in an attempt to achieve an attractive target for cancer prevention and chemotherapy.

Understanding histone deacetylases in the cancer development and treatment: an epigenetic perspective of cancer chemotherapy.

Cancer is a pathologic condition that involves genetic and epigenetic events culminating in neoplastic transformation. Alteration in epigenetic events that regulate the transcriptional activity of genes associated with various signaling pathways can influence multiple stages of tumorigenesis. In cancer cells, an imbalance often exists between histone acetyl transferase and histone deacetylase (HDAC) activities, and current research focuses actively on seeking competitive HDAC inhibitors (HDACi) for chemotherapeutic intervention. HDACi are proving useful for cancer prevention and therapy by virtue of their ability to reactivate the expression of epigenetically silenced genes, including those involved in differentiation, cell cycle regulation, apoptosis, angiogenesis, invasion, and metastasis. Furthermore, epidemiological studies suggest that different diets such as intake of cruciferous vegetables may lower the risk of different cancers, and there is growing interest in identifying the specific chemoprotective constituents and mechanistic insights of their action. Interestingly, it has been observed that cancer cells are more sensitive than nontransformed cells to apoptotic induction by some HDACi. Although the mechanistic basis for this sensitivity is unclear, yet HDACi have emerged as important epigenetic target for single and combinatorial chemotherapy. HDACi derived from diverse sources such as microbial, dietary, and synthetic increase acetylation level of cells and bring about anti-proliferative and apoptotic effects specific to cancer cells by way of their role in cell cycle regulation and expression of epigenetically silenced genes.

Interaction of natural products with cell survival and signaling pathways in the biochemical elucidation of drug targets in cancer.

The use of natural products with therapeutic properties is as ancient as human civilization and for a long time mineral, plant and animal products were the main sources of drugs. Worldwide sales of medicinal plants, crude extracts and finished products amounted to US$15 billion in 1999 and it increased to $23 billion in 2002. More interestingly, the influence of natural products upon anticancer drug discovery and design cannot be underestimated. Approximately 60% of all drugs in clinical trials are either a natural product, compounds derived from natural products or contain pharmacophores derived from active natural products. Thus, even today, in the presence of massive numbers of agents from combinatorial libraries, compounds from natural sources are still in the forefront of cancer chemotherapeutics as sources of active drug types, as well as being involved in drug discovery in diseases such as microbial and parasitic infections and the control of cholesterol/lipids, among other functions.

Antitumor efficacy and apoptotic activity of substituted chloroalkyl 1H-benz[de]isoquinoline-1,3-diones: a new class of potential antineoplastic agents.

A series of ten chloroalkyl 1H-benz[de]isoquinoline-1,3-diones (naphthalimides) were synthesized and evaluated for antitumor activity. Amongst them, new compounds 2d and 2i carrying a 6-NO(2) substituent in the aromatic portion of the molecule possessed significant antineoplastic activity. The most active compound 2i had elicited significant cytotoxicity in 15 human tumor cell lines namely Leukemia: MOLT-4, HL-60; Lymphoma: U-937; Colon: 502713, HT-29, SW-620, HCT-15, COLO-205; Liver: Hep-2; Prostate DU-145, PC-3; Breast: MCF-7; Neuroblastoma: IMR-32, SK-N-SH and Ovary: OVCAR-5 out of the 17 cell lines screened. Flow cytometric analysis performed to study the effect of compound 2i on the progression of cell cycle of MOLT-4 cells, revealed rise in sub-G(1) fraction and concomitant accumulation of cells in S and G(2)/M phases, indicating apoptosis, mitotic arrest and/or delay in exit of daughter cells from mitotic cycle respectively. It also induced caspase-mediated apoptosis of MOLT-4 cells in a dose dependant manner. Light and electron microscopic studies revealed characteristic morphology of apoptotic MOLT-4 cells after in vitro treatment with 10 µM concentration of the compound. Apoptosis induction was also observed in HL-60 cells by compounds 2d and 2i to an extent much greater than camptothecin and cis-platin at 10 µM concentration. Both the compounds have shown minimal suppressive effect on human PBMC having high IC(50) values of 3,582 and 1,536 µM respectively. These compounds inhibited DNA and RNA synthesis in murine ascites Sarcoma-180 tumor cells in vitro at 8 µM concentration. Above results indicate promising chemotherapeutic potential of the key compound 2i.

Induction of mitochondrial-dependent apoptosis by an essential oil from Tanacetum gracile.

The essential oil of Tanacetum gracile (Accession no. AT-01 termed AT-01 in the manuscript), a cold desert alpine highly aromatic herb, has 40 constituents including lavendulol (21.5 %), lavendulol acetate (1.7 %), alpha-pinene (11.2 %), 1,8-cineole (15.2 %), CIS-beta-ocimene (6.9 %), borneol (6.1 %), limonene (5.1 %) and chamazulene (3.7 %). AT-01 was evaluated for its anticancer activity. It inhibited HL-60 cell proliferation with an IC (50) of 27 microg/mL. Furthermore, AT-01 induced apoptosis in human leukemia HL-60 cells as measured by several biological end points. AT-01 induced apoptotic body formation, enhanced annexinV-FITC binding of the cells, increased sub-G (0) DNA fraction, loss of mitochondrial membrane potential (Deltapsi (mt)) and release of cytochrome c from mitochondria, activated caspase-9 as well as caspase-3, and increased cleavage of PARP in HL-60 cells. Thus, AT-01 induced apoptosis through the mitochondrial dependent pathway in HL-60 cells.

Effect of acetyl 11-keto beta-boswellic acid on metastatic growth factor responsible for angiogenesis.

Basic fibroblast growth factor (bFGF), a metastatic growth factor is known to be one of the promoting factors in the tumor induced angiogenesis. The antiangiogenic activity of acetyl 11-keto beta-boswellic acid was screened against bFGF-induced angiogenesis using in-vivo Matrigel Plug Assay. Histological & colorimetric examination confirmed that numerous blood vessels were present in Matrigel+bFGF group in comparison to Matrigel alone treated mice. Acetyl 11-keto beta-boswellic acids (10 mg/kg/d) inhibited the Matrigel+bFGF-induced angiogenesis significantly (P<0.01) in contrast to anti-inflammatory agent indomethacin (10 mg/kg/d) and alkylating agent cyclophosphamide (10 mg/kg/d).