Emerging role of microRNAs as regulators of protein kinase C substrate MARCKS and MARCKSL1 in cancer.

MicroRNAs (miRNAs) have emerged as pivotal regulators of gene expression, playing essential roles in diverse cellular processes, including the development and progression of cancer. Among the numerous proteins influenced by miRNAs, the MARCKS/MARCKSL1 protein, a key regulator of cellular cytoskeletal dynamics and membrane-cytosol communication, has garnered significant attention due to its multifaceted involvement in various cancer-related processes, including cell migration, invasion, metastasis, and drug resistance. Motivated by the encouraging early clinical success of peptides targeting MARCKS in several pathological conditions, this review article delves into the intricate interplay between miRNAs and the MARCKS protein in cancer. Herein, we have highlighted the latest findings on specific miRNAs that modulate MARCKS/MARCKSL1 expression, providing a comprehensive overview of their roles in different cancer types. We have underscored the need for in-depth investigations into the therapeutic feasibility of targeting the miRNA-MARCKS axis in cancer, taking cues from the successes witnessed in related fields. Unlocking the full potential of miRNA-mediated MARCKS regulation could pave the way for innovative and effective therapeutic interventions against various cancer types.

Identification of h-TERT Promoter Mutations in Germline DNA from North Indian Lung Carcinoma Patients.

Lung cancer is a severe and the leading cause of cancer related deaths worldwide. The recurrent h-TERT promoter mutations have been implicated in various cancer types. Thus, the present study is extended to analyze h-TERT promoter mutations from the North Indian lung carcinoma patients. Total 20 histopathologically and clinically confirmed cases of lung cancer were enrolled in this study. The genomic DNA was extracted from venous blood and subjected to amplification using appropriate h-TERT promoter primers. Amplified PCR products were subjected for DNA Sanger sequencing for the identification of novel h-TERT mutations. Further, these identified h-TERT promoter mutations were analysed for the prediction of pathophysiological consequences using bioinformatics tools such as Tfsitescan and CIIDER. The average age of patients was 45 ± 8 years which was categorized in early onset of lung cancer with predominance of male patients by 5.6 fold. Interestingly, h-TERT promoter mutations were observed highly frequent in lung cancer. Identified mutations include c. G272A, c. T122A, c. C150A, c. 123 del C, c. C123T, c. G105A, c. 107 Ins A, c. 276 del C corresponding to -168 G>A, -18 T>A, -46 C>A, -19 del C, -19 C>T, -1 G>A, -3 Ins A, -172 del C respectively from the translation start site in the promoter of the telomerase reverse transcriptase gene which are the first time reported in germline genome from lung cancer. Strikingly, c. -18 T>A [C.T122A] was found the most prevalent variant with 75% frequency. Notwithstanding, other mutations viz c. -G168A [c. G272A] and c. -1 G>A [c. G105A] were found to be at 35% and 15% frequency respectively whilst the rest of the mutations were present at 10% and 5% frequency. Additionally, bioinformatics analysis revealed that these mutations can lead to either loss or gain of various transcription factor binding sites in the h-TERT promoter region. Henceforth, these mutations may play a pivotal role in h-TERT gene expression. Taken together, these identified novel promoter mutations may alter the epigenetics and subsequently various transcription factor binding sites which are of great functional significance. Thereby, it is plausible that these germline mutations may involve either as predisposing factor or direct participation in the pathophysiology of lung cancer through entangled molecular mechanisms.

Atypical Case of Highly Mutated h-TERT Promoter in Germline Genome from Buccal Mucosa Cancer.

Buccal mucosa cancer has an aggressive nature as it rapidly grows and penetrates with high recurrence rate. Strikingly, carcinoma of buccal mucosa is the most common cancer of oral cavity in India. Recently, telomerase and telomere biology have been implicated in the pathogenesis and progression in various cancers via regulation of telomere maintenance by telomerase expression which is controlled by telomerase reverse transcriptase (TERT) promoter. Strikingly, h-TERT promoter mutations have been incriminated in regulation of telomerase gene expression. Here, we present a 35 years old male with intense coughing, short breathlessness and fever since 15 days, was admitted to the pulmonary unit. He was a chronic smoker and gutka user. The cytopathological analysis of gastric aspirate revealed buccal mucosa carcinoma of IV stage. We identified h-TERT promoter mutations in isolated genomic DNA from whole blood using DNA sequencer. Genetic analysis disclosed that h-TERT promoter region was highly mutated in this patient. Identified mutations include C.-248 del G, C.-272 del G, C.-279 del G, C.-331 del G, C.-349 del G, C.-351 del C, C.-360 G > A, C.-362 T > A, C.-371 del T and C.-372 del T. Further, all identified mutations were subjected to predict the pathologic functional consequences using bioinformatics tools viz TFsitescan and CiiiDER which showed either loss or gain of transcription factors binding sites in h-TERT promoter. This is a unique case in which total 9 mutations were observed in h-TERT promoter in a single case. In conclusion, all together these mutations in h-TERT promoter may alter the epigenetics and subsequently the tenacity of binding transcription factors which are of functional significance.

Path of Silibinin from diet to medicine: A dietary polyphenolic flavonoid having potential anti-cancer therapeutic significance.

In the last few decades, targeting cancer by the use of dietary phytochemicals has gained enormous attention. The plausible reason and believe or mind set behind this fact is attributed to either lesser or no side effects of natural compounds as compared to the modern chemotherapeutics, or due to their conventional use as dietary components by mankind for thousands of years. Silibinin is a naturally derived polyphenol (a flavonolignans), possess following biochemical features; molecular formula C25H22O10, Molar mass: 482.44 g/mol, Boiling point 793 °C, with strikingly high antioxidant and anti-tumorigenic properties. The anti-cancer properties of Silibinin are determined by a variety of cellular pathways which include induction of apoptosis, cell cycle arrest, inhibition of angiogenesis and metastasis. In addition, Silibinin controls modulation of the expression of aberrant miRNAs, inflammatory response, and synergism with existing anti-cancer drugs. Therefore, modulation of a vast array of cellular responses and homeostatic aspects makes Silibinin an attractive chemotherapeutic agent. However, like other polyphenols, the major hurdle to declare Silibinin a translational chemotherapeutic agent, is its lesser bioavailability. After summarizing the chemistry and metabolic aspects of Silibinin, this extensive review focuses on functional aspects governed by Silibinin in chemoprevention with an ultimate goal of summarizing the evidence supporting the chemopreventive potential of Silibinin and clinical trials that are currently ongoing, at a single platform.

Kaposiform Hemangioendothelioma with Kasabach-Merritt Phenomenon in a Neonate - Role of Dual Therapy: A Case Report and Review of Literature.

Kaposiform hemangioendothelioma (KHE) represents a rare, borderline vascular tumor with locally aggressive behavior. They are often associated with a potentially life-threatening coagulopathy known as Kasabach-Merritt phenomenon (KMP). Due to heterogeneous nature of the vascular lesion and lack of standardized treatment protocols, these patients pose a diagnostic dilemma and therapeutic challenge with morbidity and potential mortality. We report successful management of an infant with KHE and associated KMP. Difficulties encountered in diagnosis, initiation of therapy, and role of dual therapy with vincristine and steroids are discussed.

Intralesional Sclerotherapy with Bleomycin in Lymphatic Malformation of Tongue an Institutional Experience and Outcomes.

INTRODUCTION: The management of lymphatic malformations (LMs) continues to improve with advancement in molecular genetics, imaging, and treatment options. However, the management of tongue LMs remains a challenge due to the location, function involved, and long-term disabilities. We propose injection sclerotherapy with bleomycin in the management of spectrum of tongue LMs. METHODS: Children with LMs involving the tongue were prospectively treated with bleomycin sclerotherapy. Outcome measured was the efficacy of sclerotherapy, complications, and functional outcome. RESULTS: A total of 11 children underwent sclerotherapy with bleomycin for varying tongue lesions. Excellent outcome was seen in children with macroglossia. Eight children with isolated (focal) lesions had a resolution of symptoms with a clearance of lesions. Specific complications related to bleomycin toxicity were not encountered in our series during the follow-up of 4 years. CONCLUSION: In our series, children with macroglossia had an excellent outcome with normalization of tongue size and function. Children with focal tongue lesions also had good to excellent outcome. We recommend treatment of tongue LM with bleomycin sclerotherapy as the first line of management. Ease of treatment, early intervention, and excellent response makes it a favorable treatment option.

Isolated Frontal Sinus Undifferentiated Carcinoma: First case Report in the Literature.

Sinonasal undifferentiated carcinoma (SNUC) is a rare tumor which is aggressive in nature, has a different clinical course in contrast to sinonasal carcinoma and poor prognosis. Here, we are reporting first case of isolated frontal SNUC which was managed by upfront surgery followed by adjuvant treatment. We want to emphasize the importance of early presentation and timely intervention in form of conservative surgery in this highly aggressive tumor.

A transcriptomic approach for exploring the molecular basis for dosha-balancing property-based classification of plants in Ayurveda.

In Ayurveda, a healthy body is defined by a balance among the three doshas (Vata, Pitta, Kapha) and ailments result due to imbalances among them. It prescribes specific plant parts/tissues collected in a season-specific manner for curing dosha-related imbalances but the plants prescribed for treating a particular dosha imbalance belong to taxonomically diverse families and often contain similar classes of phytomolecules, making it difficult to provide a phytochemical validation for any similarity that might exist among them. This exploratory study hypothesised that plants of the same dosha-curing group may have similarity at the transcript level. For proving/disproving the hypothesis, cDNA-AFLP and specific expression subset analysis (SESA) were carried out on the Ayurveda-defined active tissues of four representative plants each of the three dosha-balancing groups. cDNA-AFLP analyses indicated that even though the plants belonging to a particular dosha-group may widely differ at the transcript level, there is a small fraction of transcripts that is monomorphic among their active tissues. SESA (Tester-active tissue cDNA; Driver-cDNA from other major tissue[s]) generated 803 subtractive ESTs from the twelve plants that yielded 150 unigenes upon assembly (of ESTs from each plant separately). Cross-plant EST assembly for plants in the same dosha group also corroborated the results. Although a distinct pattern of transcripts was not observed across all the plants in a particular dosha group, some commonalities were obtained that need further characterization towards searching for the hitherto elusive similarity among plants of the same group.

Patent landscape highlighting therapeutic implications of peptides targeting myristoylated alanine-rich protein kinase-C substrate (MARCKS).

INTRODUCTION: MARCKS protein, a protein kinase C (PKC) substrate, is known to be at the intersection of several intracellular signaling pathways and plays a pivotal role in cellular physiology. Unlike PKC inhibitors, MARCKS-targeting drug (BIO-11006) has shown early success in clinical trials involving lung diseases. Recent research investigations have identified two MARCKS-targeting peptides which possess multifaceted implications against asthma, cancer, inflammation, and lung diseases. AREAS COVERED: This review article provides the patent landscape and recent developments on peptides targeting MARCKS for therapeutic purposes. Online free open-access databases were used to fetch out the patent information, and research articles were fetched using PubMed. EXPERT OPINION: Research studies highlighting the intriguing role of MARCKS in human disease and physiology have dramatically increased in recent years. A similar increasing trend in the number of patents has also been observed related to the MARCKS-targeting peptides. Thus, there is a need to amalgamate and translate such a trend into therapeutic intervention. Our review article provides an overview of such recent advances, and we believe that our compilation will fetch the interest of researchers around the globe to develop MARCKS-targeting peptides in future for human diseases.

Wogonin, as a potent anticancer compound: From chemistry to cellular interactions.

Chinese native medicine Scutellaria baicalensis Georgi, also referred to as Chinese skullcap or Huang-Qin, is frequently used to treat cancer, viral infections, and seizures. This plant's abundance of flavones (wogonoside) and their related aglycones (wogonin) is responsible for many of its pharmacologic effects. A significant ingredient in S. baicalensis that has been the subject of the most research is wogonin. Numerous preclinical investigations revealed that wogonin suppresses tumor growth by cell cycle arrest, stimulating cell death and preventing metastasis. This review focuses on a complete overview of published reports that suggest chemopreventive action of wogonin and the mechanistic insights behind these neoplastic activities. It also emphasizes the synergistic improvements made by wogonin in chemoprevention. The factual data in this mini-review stimulate additional research on chemistry and toxicological profile of wogonin to confirm its safety issues. This review will encourage researchers to generalize the merits of wogonin to be used as potential compound for cancer treatment.

Apoptotic and antimetastatic effect of cucurbitacins in cancer: recent trends and advancement.

The Cucurbitaceae family produces a class of secondary metabolites known as cucurbitacins. The eight cucurbitacin subunits are cucurbitacin B, D, E, I, IIa, L glucoside, Q, and R with the most significant anticancer activity. They are reported to inhibit cell proliferation, invasion, and migration; induce apoptosis; and encourage cell cycle arrest, as some of their modes of action. The JAK-STAT3, Wnt, PI3K/Akt, and MAPK signaling pathways, which are essential for the survival and apoptosis of cancer cells, have also been shown to be suppressed by cucurbitacins. The goal of the current study is to summarize potential molecular targets that cucurbitacins could inhibit in order to suppress various malignant processes. The review is noteworthy since it presents all putative molecular targets for cucurbitacins in cancer on a single podium.

Curcumin causes promoter hypomethylation and increased expression of FANCF gene in SiHa cell line.

Curcumin and resveratrol were evaluated for their potential to cause reversal of promoter hypermethylation and associated gene expression of FANCF in SiHa cell line. Methylation specific PCR along with bisulphite sequencing revealed the demethylation of 12 CpG sites out of 15 CpG sites spanning ?280 to ?432 region of FANCF promoter after treatment with curcumin and fivefold up regulation of FANCF gene expression as shown by qRT-PCR. In vitro methylation assay also showed that M.SssI an analogue of DNMT1 was effectively inhibited at 50 lM concentration of curcumin. Resveratrol was not found to be effective in causing reversal of promoter hypermethylation of FANCF gene when used at 20 lM for 4 days in SiHa cell line.

Xanthohumol: A Metabolite with Promising Anti-Neoplastic Potential.

The overwhelming global burden of cancer has posed numerous challenges and opportunities for developing anti-cancer therapies. Phytochemicals have emerged as promising synergistic compounds with potential anti-cancer effects to supplement chemo- and immune-therapeutic regimens. Anti cancer synergistic effects have been investigated in the interaction between phytocompounds derived from flavonoids such as quercetin, apigenin, kaempferol, hesperidin, emodin, etc., and conventional drugs. Xanthohumol is one of the prenylated phytoflavonoid that has demonstrated key anti-cancer activities in in vitro (anti proliferation of cancer cell lines) and in vivo (animal models of xenograft tumours) studies, and has been explored from different dimensions for targeting cancer subtypes. In the last decade, xanthohumol has been investigated how it induces the anti- cancer effects at cellular and molecular levels. The different signalling cascades and targets of xanthohumol are summarized in this review. Overall, this review summarizes the current advances made in the field of natural compounds with special reference to xanthohumol and its promising anti-cancer effects to inhibit tumour progression. The present review has also discussedthe potential of xanthohumol transitioning into a leadingcandidate from nano-therapy viewpoint along with the challenges which need to be addressed for extensive preclinical and clinical anti-cancer studies.

Galangin: A metabolite that suppresses anti-neoplastic activities through modulation of oncogenic targets.

With the dramatic increase in cancer incidence all over the world in the last decades, studies on identifying novel efficient anti-cancer agents have been intensified. Historically, natural products have represented one of the most important sources of new lead compounds with a wide range of biological activities. In this article, the multifaceted anti-cancer action of propolis-derived flavonoid, galangin, is presented, discussing its antioxidant, anti-inflammatory, antiproliferative, pro-apoptotic, anti-angiogenic, and anti-metastatic effects in various cancer cells. In addition, co-effects with standard chemotherapeutic drugs as well as other natural compounds are also under discussion, besides highlighting modern nanotechnological advancements for overcoming the low bioavailability issue characteristic of galangin. Although further studies are needed for confirming the anti-cancer potential of galangin in vivo malignant systems, exploring this natural compound might open new perspectives in molecular oncology.

Ampelopsin targets in cellular processes of cancer: Recent trends and advances.

Cancer is being considered as a serious threat to human health globally due to limited availability and efficacy of therapeutics. In addition, existing chemotherapeutic drugs possess a diverse range of toxic side effects. Therefore, more research is welcomed to investigate the chemo-preventive action of plant-based metabolites. Ampelopsin (dihydromyricetin) is one among the biologically active plant-based chemicals with promising anti-cancer actions. It modulates the expression of various cellular molecules that are involved in cancer progressions. For instance, ampelopsin enhances the expression of apoptosis inducing proteins. It regulates the expression of angiogenic and metastatic proteins to inhibit tumor growth. Expression of inflammatory markers has also been found to be suppressed by ampelopsin in cancer cells. The present review article describes various anti-tumor cellular targets of ampelopsin at a single podium which will help the researchers to understand mechanistic insight of this phytochemical.

Systematic Mapping Study of AI/Machine Learning in Healthcare and Future Directions.

This study attempts to categorise research conducted in the area of: use of machine learning in healthcare, using a systematic mapping study methodology. In our attempt, we reviewed literature from top journals, articles, and conference papers by using the keywords use of machine learning in healthcare. We queried Google Scholar, resulted in 1400 papers, and then categorised the results on the basis of the objective of the study, the methodology adopted, type of problem attempted and disease studied. As a result we were able to categorize study in five different categories namely, interpretable ML, evaluation of medical images, processing of EHR, security/privacy framework, and transfer learning. In the study we also found that most of the authors have studied cancer, and one of the least studied disease was epilepsy, evaluation of medical images is the most researched and a new field of research, Interpretable ML/Explainable AI, is gaining momentum. Our basic intent is to provide a fair idea to future researchers about the field and future directions.

Multi-Target Directed Ligands (MTDLs): Promising Coumarin Hybrids for Alzheimer's Disease.

Alzheimer's disease (AZD) is an age-associated neurodegenerative disorder and is one of the common health issues around the globe. It is characterized by memory loss and a decline in other cognitive domains, including executive function. The progression of AZD is associated with complex events, and the exact pathogenesis is still unrevealed. Various mechanisms which are thought to be associated with the initiation of AZD include a decreased concentration of acetylcholine (ACh), deposition of amyloid-ß (Aß) peptide, dyshomeostasis of redox metal ions, and prolonged oxidative stress. Due to the simultaneous progression of diverse pathogenetic pathways, no ideal therapeutic agent has been developed to date. The drugs which are available against AZD provide only symptomatic benefits and do not have disease-modifying activity. Therefore, in search of ideal therapeutic candidates, the concept of molecular hybrids has been under keen investigation for the past few years. Hybrid molecules are able to inhibit or activate or modify the physiology of more than one target simultaneously. Coumarin scaffold have shown the excellent potential of ACh esterase inhibition, MAO-B inhibition, and anti-Aß aggregation. In the present review, we have focused on different reported coumarin hybrids as multi-target-directed agents against AZD. These include hybrids of coumarin with carbazole, benzofuran, dithiocarbamate, quinoline, pargyline, tacrine, N-benzyl pyridinium, donepezil, purine, piperidine, morpholine, aminophenol, benzylamino, halophenylalkylamidic, thiazole, thiourea, hydroxypyridinone, triazole, piperazine, chalcone, etc. Along with the therapeutic potentials of these hybrids, important clinical investigations and the structure-activity relationship have also been discussed in this compilation.

NOTCH signaling: Journey of an evolutionarily conserved pathway in driving tumor progression and its modulation as a therapeutic target.

Notch signaling, an evolutionarily conserved signaling cascade, is critical for normal biological processes of cell differentiation, development, and homeostasis. Deregulation of the Notch signaling pathway has been associated with tumor progression. Thus, Notch presents as an interesting target for a variety of cancer subtypes and its signaling mechanisms have been actively explored from the therapeutic viewpoint. However, besides acting as an oncogene, Notch pathway can possess also tumor suppressive functions, being implicated in inhibition of cancer development. Given such interesting dual and dynamic role of Notch, in this review, we discuss how the evolutionarily conserved Notch signaling pathway drives hallmarks of tumor progression and how it could be targeted for a promising treatment and management of cancer. In addition, the up-to-date information on the inhibitors currently under clinical trials for Notch targets is presented along with how NOTCH inhibitors can be used in conjunction with established chemotherapy/radiotherapy regimes.

Repurposing of SARS-CoV nucleocapsid protein specific nuclease resistant RNA aptamer for therapeutics against SARS-CoV-2.

COVID-19 pandemic is rapidly advancing among human population. Development of new interventions including therapeutics and vaccines against SARS-CoV-2 will require time and validation before it could be made available for public use. Keeping in view of the emergent and evolving situation the motive is to repurpose and test the immediate efficacy of available drugs and therapeutics against COVID-19. Through this article we propose and discuss the possibility of repurposing the available nuclease resistant RNA aptamer against the nucleocapsid protein of SARS-CoV as a potential therapeutic agent for COVID-19.

Baicalein: A metabolite with promising antineoplastic activity.

Cancer, being a multifactorial disease has diverse presentation in different subgroups which is mainly attributed to heterogenous presentation of tumor cells. This cancer cell heterogeneity is the major reason for variable response to standard chemotherapeutic regimes owing to which high relapse rate and multi-drug resistance has increasingly been reported over the past decade. Interestingly, the research on natural compounds in combination with standard therapies have reported with interesting and promising results from the pre-clinical trials and few of which have also been tested in other phases of clinical trials. This review focusses on baicalein, an emerging anti-cancerous natural compound, its chemistry and mechanism of action. In view of promising pre-clinical this review is mainly motivated by the results observed from baicalein treatment of different cancer cell population. With the advancing scientific evidence on the anti-malignant potential of baicalein with respect to its pharmacological activities encompassing from anti-inflammatory to anti-angiogenic/anti-metastatic effects, the focus is mainly directed to understanding the precise mechanism of action of baicalein. In the process of understanding the underlying signaling cascades, the role of mitogen activated protein kinase (MAPK), mammalian target of rapamycin (mTOR), AKT serine/threonine protein kinase B (AKT), poly(ADP-ribose) polymerase (PARP), matrix metalloproteinases-2 (MMP-2), matrix metalloproteinases-9 (MMP-9) and caspase-3/-8,-9 have been highlighted as the major players for baicalein anti-malignant potential. This is also supported by the interesting pre-clinical findings which cumulatively pave the way ahead for development of baicalein as an adjunct anti-cancer treatment with chemotherapeutic agents.