Your search keyword '"Inampudi, Krishna K."' showing total 11 results

1. AGC family kinase of Entamoeba histolytica: Decoding the members biochemically.

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Author

Ahmad, Azhar, Kumar, Vikas, Kushwaha, Tushar, Kumar, Akash, Sehgal, Deepak, Inampudi, Krishna K., and Somlata

Subjects

ENTAMOEBA histolytica, PERSONAL names, KINASES, AMEBIASIS, BIOCHEMICAL substrates

Abstract

Entamoeba histolytica, a protozoan parasite, is the causative agent of amoebiasis, which is a significant global health concern. The virulence mechanisms underlying its pathogenicity are multifaceted and complex. However, endocytic processes and motility are well accepted virulence determinants. As previously reported, an AGCK family kinase, EhAGCK1 to be involved in trogocytosis exclusively while another one from same family named EhAGCK2 participates in all actin dependent endocytic processes. As the kinase dead mutants of EhAGCK1 showed significant defect in destruction of live host cells and also the localisation pattern of same is distinguishable from EhAGCK2. From observations so far, it appears that former initiates a distinguishable signaling cascade. In this work, we have demonstrated distinct biochemical properties of kinases involved in related yet distinguishable endocytic processes for the first time. Our biochemical characterization highlights distinct ion dependency of EhAGCK1 along with substrate specificity. We also show upstream activator of these kinases, 3-phosphoinositide dependent kinase 1 (PDK1) activity and its role in activating the kinase activity. The kinases exhibit property of autophosphorylation, and which may regulate the kinase activity subsequently. Summarily, these studies show that EhAGCK1 and EhAGCK2 show distinct biochemical properties which further confirm their unique role in related endocytic processes of trogocytosis and phagocytosis. Author summary: The protozoan parasite E. histolytica causes amebiasis in humans. The trophozoites depend on variety of endocytic processes to survive and cause pathogenesis in the gut of host system. Phagocytosis and trogocytosis are two related endocytic processes known to contribute to the pathogenesis by the parasite in vivo. The two processes are phenotypically different, trogocytosis being fast paced resembling nibbling and specific to live host cells. In terms of molecular mechanism of these processes, an AGC family kinase, EhAGCK1 is known to be involved in trogocytosis specifically while another one EhAGCK2 is involved in all types of endocytic processes including fluid uptake. Our biochemical characterization of these two kinases reveal that they have distinct substrate specificity and ion requirement. The overall biochemical assessment indicates the two kinases belonging to same family are involved in the phagocytic and trogocytic pathway distinctly. Hence, although the phagocytosis and trogocytosis at molecular level appear to be related but they also involve steps unique to each pathway. [ABSTRACT FROM AUTHOR] more...

Published

2024

2. Spectroscopic insight into breast cancer: profiling small extracellular vesicles lipids via infrared spectroscopy for diagnostic precision.

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Author

Mishra, Abhay, Zehra, Sadaqa, Bharti, Prahalad Kumar, Mathur, Sandeep R., Ranjan, Piyush, Batra, Atul, Inampudi, Krishna K., Modi, Gyan Prakash, Nikolajeff, Fredrik, and Kumar, Saroj

Subjects

BREAST cancer, EXTRACELLULAR vesicles, INFRARED spectroscopy, RECEIVER operating characteristic curves, NUCLEIC acids, LIPIDS

Abstract

Breast cancer, a leading cause of female mortality due to delayed detection owing to asymptomatic nature and limited early diagnostic tools, was investigated using a multi-modal approach. Plasma-derived small EVs from breast cancer patients (BrCa, n = 74) and healthy controls (HC, n = 30) were analyzed. Small EVs (n = 104), isolated through chemical precipitation, underwent characterization via transmission electron microscopy (TEM) and nanoparticle tracking analysis (NTA). Validation involved antibody-based tests (TSG101, CD9, CD81, CD63). Infrared spectra of small EVs were obtained, revealing significant differences in lipid acyl chains, particularly in the C–H stretching of CH3. The study focused on the lipid region (3050–2900 cm−1), identifying peaks (3015 cm−1, 2960 cm−1, 2929 cm−1) as distinctive lipid characteristics. Spectroscopic lipid-to-lipid ratios [(I3015/I2929), (I2960/I2929)] emerged as prominent breast cancer markers. Exploration of protein, nucleic acid, and carbohydrate ratios indicated variations in alpha helices, asymmetric C–H stretching vibrations, and C–O stretching at 1033 cm−1. Principal component analysis (PCA) successfully differentiated BrCa and HC small EVs, and heatmap analysis and receiver operating characteristic (ROC) curve evaluations underscored the discriminatory power of lipid ratios. Notably, (I2960/I2929) exhibited 100% sensitivity and specificity, highlighting its potential as a robust BrCa sEV marker for breast cancer detection. [ABSTRACT FROM AUTHOR] more...

Published

2024

3. Alterations of the expression of TET2 and DNA 5-hmC predict poor prognosis in Myelodysplastic Neoplasms.

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Author

Seethy, Ashikh A., Pethusamy, Karthikeyan, Kushwaha, Tushar, Kumar, Gaurav, Talukdar, Joyeeta, Chaubey, Rekha, Sundaram, Udayakumar Dharmalingam, Mahapatra, Manoranjan, Saxena, Renu, Dhar, Ruby, Inampudi, Krishna K., and Karmakar, Subhradip more...

Subjects

HEMATOPOIETIC stem cells, ACUTE myeloid leukemia, BONE marrow cells, HEMATOPOIETIC system, MOLECULAR dynamics, DEMETHYLATION

Abstract

Background: Myelodysplastic Neoplasms (MDS) are clonal stem cell disorders characterized by ineffective hematopoiesis and progression to acute myeloid leukemia, myelodysplasia-related (AML-MR). A major mechanism of pathogenesis of MDS is the aberration of the epigenetic landscape of the hematopoietic stem cells and/or progenitor cells, especially DNA cytosine methylation, and demethylation. Data on TET2, the predominant DNA demethylator of the hematopoietic system, is limited, particularly in the MDS patients from India, whose biology may differ since these patients present at a relatively younger age. We studied the expression and the variants of TET2 in Indian MDS and AML-MR patients and their effects on 5-hydroxymethyl cytosine (5-hmC, a product of TET2 catalysis) and on the prognosis of MDS patients. Results: Of the 42 MDS patients, cytogenetics was available for 31 sub-categorized according to the Revised International Prognostic Scoring System (IPSS-R). Their age resembled that of the previous studies from India. Bone marrow nucleated cells (BMNCs) were also obtained from 13 patients with AML-MR, 26 patients with de-novo AML, and 11 subjects with morphologically normal bone marrow. The patients had a significantly lower TET2 expression which was more pronounced in AML-MR and the IPSS-R higher-risk MDS categories. The 5-hmC levels in higher-risk MDS and AML-MR correlated with TET2 expression, suggesting a possible mechanistic role in the loss of TET2 expression. The findings on TET2 and 5-hmC were also confirmed at the tissue level using immunohistochemistry. Pathogenic variants of TET2 were found in 7 of 24 patient samples (29%), spanning across the IPSS-R prognostic categories. One of the variants – H1778R – was found to affect local and global TET2 structure when studied using structural predictions and molecular dynamics simulations. Thus, it is plausible that some pathogenic variants in TET2 can compromise the structure of TET2 and hence in the formation of 5-hmC. Conclusions: IPSS-R higher-risk MDS categories and AML-MR showed a reduction in TET2 expression, which was not apparent in lower-risk MDS. DNA 5-hmC levels followed a similar pattern. Overall, a decreased TET2 expression and a low DNA 5-hmC level are predictors of advanced disease and adverse outcome in MDS in the population studied, i.e., MDS patients from India. [ABSTRACT FROM AUTHOR] more...

Published

2023

4. Extein residues regulate the catalytic function of Spl DnaX intein enzyme by restricting the near‐attack conformations of the active‐site residues.

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Author

Boral, Soumendu, Sen, Srijon, Kushwaha, Tushar, Inampudi, Krishna K., and De, Soumya

Abstract

Intein enzymes catalyze the splicing of their flanking polypeptide chains and have found tremendous biotechnological applications. Their terminal residues form the catalytic core and participate in the splicing reaction. Hence, the neighboring N‐ and C‐terminal extein residues influence the catalytic rate. As these extein residues vary depending on the substrate identity, we tested the influence of 20 amino acids at these sites in the Spl DnaX intein and observed significant variation of spliced product as well as N‐ and C‐terminus cleavage product formation. We investigated the dependence of these reactions on the extein residues by molecular dynamics (MD) simulations on eight extein variants, and found that the conformational sampling of the active‐site residues of the intein enzyme differed among these extein variants. We found that the extein variants that sample higher population of near‐attack conformers (NACs) of the active‐site residues undergo higher product formation in our activity assays. Ground state conformers that closely resemble the transition state are referred to as NACs. Very good correlation was observed between the NAC populations from the MD simulations of eight extein variants and the corresponding product formation from our activity assays. Furthermore, this molecular detail enabled us to elucidate the mechanistic roles of several conserved active‐site residues in the splicing reaction. Overall, this study shows that the catalytic power of Spl DnaX intein enzyme, and most likely other inteins, depends on the efficiency of formation of NACs in the ground state, which is further modulated by the extein residues. [ABSTRACT FROM AUTHOR] more...

Published

2023

5. Computational investigations on the potential role of hygrophorones as quorum sensing inhibitors against LasR protein of Pseudomonas aeruginosa.

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Author

Dalal, Anu, Kushwaha, Tushar, Choudhir, Gourav, Inampudi, Krishna K., Karmakar, Tarak, Hariprasad, P., and Gholap, Shivajirao L.

Published

2023

6. Distribution of TGFBI variants in patients with early onset glaucoma.

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Gupta, Viney, Panigrahi, Arnav, Somarajan, Bindu I., Gupta, Shikha, Tripathy, Koushik, Singh, Abhishek, Sharma, Anshul, Tandon, Radhika, Pradhan, Dibyabhaba, Sharma, Arundhati, Kushwaha, Tushar, and Inampudi, Krishna K. more...

Published

2023

7. Structural and dynamic studies of the human RNA binding protein RBM3 reveals the molecular basis of its oligomerization and RNA recognition.

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Roy, Sayantani, Boral, Soumendu, Maiti, Snigdha, Kushwaha, Tushar, Basak, Aditya J., Lee, Woonghee, Basak, Amit, Gholap, Shivajirao L., Inampudi, Krishna K., and De, Soumya

Subjects

RNA-binding proteins, OLIGOMERIZATION, GEL permeation chromatography, MOLECULAR dynamics, HEAT shock proteins, N-terminal residues

Abstract

Human RNA‐binding motif 3 protein (RBM3) is a cold‐shock protein which functions in various aspects of global protein synthesis, cell proliferation and apoptosis by interacting with the components of basal translational machinery. RBM3 plays important roles in tumour progression and cancer metastasis, and also has been shown to be involved in neuroprotection and endoplasmic reticulum stress response. Here, we have solved the solution NMR structure of the N‐terminal 84 residue RNA recognition motif (RRM) of RBM3. The remaining residues are rich in RGG and YGG motifs and are disordered. The RRM domain adopts a βαββαβ topology, which is found in many RNA‐binding proteins. NMR‐monitored titration experiments and molecular dynamic simulations show that the beta‐sheet and two loops form the RNA‐binding interface. Hydrogen bond, pi–pi and pi–cation are the key interactions between the RNA and the RRM domain. NMR, size exclusion chromatography and chemical cross‐linking experiments show that RBM3 forms oligomers in solution, which is favoured by decrease in temperature, thus, potentially linking it to its function as a cold‐shock protein. Temperature‐dependent NMR studies revealed that oligomerization of the RRM domain occurs via nonspecific interactions. Overall, this study provides the detailed structural analysis of RRM domain of RBM3, its interaction with RNA and the molecular basis of its temperature‐dependent oligomerization. [ABSTRACT FROM AUTHOR] more...

Published

2022

8. An atypical EhGEF regulates phagocytosis in Entamoeba histolytica through EhRho1.

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Author

Bharadwaj, Ravi, Kushwaha, Tushar, Ahmad, Azhar, Inampudi, Krishna K., Nozaki, Tomoyoshi, and Somlata

Subjects

GUANINE nucleotide exchange factors, ENTAMOEBA histolytica, PHAGOCYTOSIS, CELLULAR signal transduction, DRUG target, COGNITIVE development

Abstract

The parasite Entamoeba histolytica is the etiological agent of amoebiasis, a major cause of morbidity and mortality due to parasitic diseases in developing countries. Phagocytosis is an essential mode of obtaining nutrition and has been associated with the virulence behaviour of E. histolytica. Signalling pathways involved in activation of cytoskeletal dynamics required for phagocytosis remains to be elucidated in this parasite. Our group has been studying initiation of phagocytosis and formation of phagosomes in E. histolytica and have described some of the molecules that play key roles in the process. Here we showed the involvement of non-Dbl Rho Guanine Nucleotide Exchange Factor, EhGEF in regulation of amoebic phagocytosis by regulating activation of EhRho1. EhGEF was found in the phagocytic cups during the progression of cups, until closure of phagosomes, but not in the phagosomes themselves. Our observation from imaging, pull down experiments and down regulating expression of different molecules suggest that EhGEF interacts with EhRho1 and it is required during initiation of phagocytosis and phagosome formation. Also, biophysical, and computational analysis reveals that EhGEF mediates GTP exchange on EhRho1 via an unconventional pathway. In conclusion, we describe a non-Dbl EhGEF of EhRho1 which is involved in endocytic processes of E. histolytica. Author summary: E. histolytica is causative agent of amoebiasis in humans, which is of major concern in children, as repeated infection leads to stunted physical and mental growth. Parasite display variety of endocytic processes, like phagocytosis, trogocytosis and micropinocytosis to name a few. The molecular mechanism of these processes is still largely unknown. The molecules, which participate in these endocytic processes may prove to be good therapeutic targets, as endocytic processes are necessary for parasite growth, survival, and pathogenesis in host system. Here in this this report, we have focussed on an unconventional EhGEF, which was identified as EhRho1 interacting protein by mass spectrometry. Our microscopy experiments show EhGEF participates in phagocytosis and trogocytosis and is highly dynamic in nature. The molecule also plays a crucial role in activation and recruitment of EhRho1 to the site of phagocytosis, and downregulation of EhGEF mimics phenotype similar to overexpression of activity dead mutant (T34N) of EhRho1. Our finding reveals EhGEF to play important role in actin dependent endocytic processes through EhRho1 and thereby, regulating actin dynamics during the process through EhFormin1 and EhProfilin1. [ABSTRACT FROM AUTHOR] more...

Published

2021

9. Nanoparticles Loaded with Wnt and YAP/Mevalonate Inhibitors in Combination with Paclitaxel Stop the Growth of TNBC Patient‐Derived Xenografts and Diminish Tumorigenesis.

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Author

Sulaiman, Andrew, McGarry, Sarah, El‐Sahli, Sara, Li, Li, Chambers, Jason, Phan, Alexandra, Al‐Kadi, Emil, Kahiel, Zaina, Farah, Eliya, Ji, Guang, Lee, Seung‐Hwan, Inampudi, Krishna K., Alain, Tommy, Li, Xuguang, Liu, Sheng, Han, Xianghui, Zheng, Peiyong, Liu, Zhen, Gadde, Suresh, and Wang, Lisheng more...

Published

2020

10. Toxoplasma gondii calcium-dependent protein kinase 1 is a target for selective kinase inhibitors.

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Author

Ojo, Kayode K., Larson, Eric T., Keyloun, Katelyn R., Castaneda, Lisa J., DeRocher, Amy E., Inampudi, Krishna K., Kim, Jessica E., Arakaki, Tracy L., Murphy, Ryan C., Li Zhang, Napuli, Alberto J., Maly, Dustin J., Verlinde, Christophe L. M. J., Buckner, Frederick S., Parsons, Marilyn, Hol, Wim G. J., Merritt, Ethan A., and Van Voorhis, Wesley C. more...

Subjects

TOXOPLASMA gondii, PROTEIN kinases, PHOSPHOTRANSFERASES, SARCOCYSTIDAE, GLYCINE, METHIONINE

Abstract

New drugs are needed to treat toxoplasmosis. Toxoplasma gondii calcium-dependent protein kinases (TgCDPKs) are attractive targets because they are absent in mammals. We show that TgCDPK1 is inhibited by low nanomolar levels of bumped kinase inhibitors (BKIs), compounds inactive against mammalian kinases. Cocrystal structures of TgCDPK1 with BKIs confirm that the structural basis for selectivity is due to the unique glycine gatekeeper residue in the ATP-binding site. We show that BKIs interfere with an early step in T. gondii infection of human cells in culture. Furthermore, we show that TgCDPK1 is the in vivo target of BKIs because T. gondii expressing a glycine to methionine gatekeeper mutant enzyme show significantly decreased sensitivity to BKIs. Thus, design of selective TgCDPK1 inhibitors with low host toxicity may be achievable. [ABSTRACT FROM AUTHOR] more...

Published

2010

11. Biochemical and Biophysical Characterisation of the Hepatitis E Virus Guanine-7-Methyltransferase.

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Author

Hooda, Preeti, Ishtikhar, Mohd, Saraswat, Shweta, Bhatia, Pooja, Mishra, Deepali, Trivedi, Aditya, Kulandaisamy, Rajkumar, Aggarwal, Soumya, Munde, Manoj, Ali, Nemat, AlAsmari, Abdullah F., Rauf, Mohd A., Inampudi, Krishna K., and Sehgal, Deepak more...

Subjects

HEPATITIS E virus, RNA polymerases, RNA replicase, GUANOSINE triphosphate, RNA helicase, FLUORESCENCE quenching, CATECHOL-O-methyltransferase, METHYLTRANSFERASES

Abstract

Hepatitis E virus (HEV) is an understudied pathogen that causes infection through fecal contaminated drinking water and is prominently found in South Asian countries. The virus affects ~20 million people annually, leading to ~60,000 infections per year. The positive-stranded RNA genome of the HEV genotype 1 has four conserved open reading frames (ORFs), of which ORF1 encodes a polyprotein of 180 kDa in size, which is processed into four non-structural enzymes: methyltransferase (MTase), papain-like cysteine protease, RNA-dependent RNA polymerase, and RNA helicase. MTase is known to methylate guanosine triphosphate at the 5′-end of viral RNA, thereby preventing its degradation by host nucleases. In the present study, we cloned, expressed, and purified MTase spanning 33–353 amino acids of HEV genotype 1. The activity of the purified enzyme and the conformational changes were established through biochemical and biophysical studies. The binding affinity of MTase with magnesium ions (Mg2+) was studied by isothermal calorimetry (ITC), microscale thermophoresis (MST), far-UV CD analysis and, fluorescence quenching. In summary, a short stretch of nucleotides has been cloned, coding for the HEV MTase of 37 kDa, which binds Mg2+ and modulate its activity. The chelation of magnesium reversed the changes, confirming its role in enzyme activity. [ABSTRACT FROM AUTHOR] more...

Published

2022