Katari Venkatesh

In vitro differentiation of cultured human CD34+ cells into astrocytes

BACKGROUND Astrocytes are abundantly present as glial cells in the brain and play an important role in the regenerative processes. The possible role of stem cell derived astrocytes in the spinal cord injuries is possible related to their influence at the synaptic junctions. AIM The present study is focused on in vitro differentiation of cultured human CD34+ cells into astrocytes. MATERIALS AND METHODS Granulocyte-colony stimulating factor mobilized human CD34+ cells were isolated from peripheral blood using apheresis method from a donor. These cells were further purified by fluorescence-activated cell sorting and cultured in Dulbeccos modified eagles medium. Thus, cultured cells were induced with astrocyte defined medium (ADM) and in the differentiated astrocytes serine/threonine protein kinases (STPK) and glutamine synthetase (GLUL) activities were estimated. The expression of glial fibrillary acidic protein (GFAP) and GLUL were confirmed by reverse transcriptase-polymerase chain reaction (RT-PCR). RESULTS The cultured human CD34+ cells differentiated into astrocytes after 11 h of incubation in ADM. The RT-PCR experiment showed the expression of GLUL (1.5 kb) and GFAP (2.9 kb) in differentiated astrocytes. The high enzyme activities of GLUL and STPK in differentiated astrocytes compared with cultured human CD34+ cells confirmed astrocyte formation. CONCLUSION In the present study, in vitro differentiation of stem cells with retinoic acid induction may result in the formation of astrocytes.

Mutations in exons 3 and 7 resulting in truncated expression of human ATP6V1B1 gene showing structural variations contributing to poor substrate binding-causative reason for distal renal tubular acidosis with sensorineural deafness

Distal renal tubular acidosis (dRTA) is an autosomal recessive syndrome results defect in either proximal tubule bicarbonate reabsorption or in distal tubule H+ secretion and is characterized by severe hyperchloraemic metabolic acidosis in childhood. dRTA is associated with functional variations in the ATP6V1B1 gene encoding β1 subunit of H+-ATPase, key membrane transporters for net acid excretion of α-intercalated cells of medullary collecting ducts. In the present study, a 13-year-old male patient suffering with nephropathy and sensorineural deafness was reported in the Department of Nephrology. We predicted improper functioning of ATP6V1B1 gene could be the reason for diseased condition. Therefore, exons 3, 4, and 7 contributing active site of ATP6V1B1 gene was amplified and sequenced (Accession numbers: KF571726, KM222653). The obtained sequences were BLAST searched against the wild type ATP6V1B1 gene which showed novel mutations c.307 A > G, c.308 C > A, c.310 C > G, c.704 T > C, c.705 G > T, c.709 A > G, c.710 A > G, c.714 G > A, c.716 C > A, c.717delC, c.722 C > G, c.728insG, c.741insT, c.753G > C. These mutations resulted in the expression of truncated protein terminating at Lys 209. The mutated ATP6V1B1structure superimposed with wild type showed extensive variations with RMSD 1.336 Å and could not bind to substrate ADP leading to non-functional ATPase. These results conclusively explain these mutations in ATP6V1B1 gene resulted in structural changes causing accumulation of H+ ions contributing to dRTA with sensorineural deafness.

In silico designing and molecular docking of a potent analog against Staphylococcus aureus porphobilinogen synthase

Background: The emergence of multidrug-resistant strains of Staphylococcus aureus, there is an urgent need for the development of new antimicrobials which are narrow and pathogen specific. Aim: In this context, the present study is aimed to have a control on the staphylococcal infections by targeting the unique and essential enzyme; porphobilinogen synthase (PBGS) catalyzes the condensation of two molecules of δ-aminolevulinic acid, an essential step in the tetrapyrrole biosynthesis. Hence developing therapeutics targeting PBGS will be the promising choice to control and manage the staphylococcal infections. 4,5-dioxovalerate (DV) is known to inhibit PBGS. Materials and Methods: In view of this, in this study, novel dioxovalerate derivatives (DVDs) molecules were designed so as to inhibit PBGS, a potential target of S. aureus and their inhibitory activity was predicted using molecular docking studies by molecular operating environment. The 3D model of PBGS was constructed using Chlorobium vibrioform (Protein Data Bank 1W1Z) as a template by homology modeling method. Results: The built structure was close to the crystal structure with Z score − 8.97. Molecular docking of DVDs into the S. aureus PBGS active site revealed that they are showing strong interaction forming H-bonds with the active sites of K248 and R217. The ligand–receptor complex of DVD13 showed a best docking score of − 14.4555 kcal/mol among DV and all its analogs while the substrate showed docking score of − 13.0392 kcal/mol showing interactions with S199, K217 indicating that DVD13 can influence structural variations on the enzyme and thereby inhibiting the enzyme. Conclusion: The substrate analog DVD13 is showing significant interactions with active site of PBGS and it may be used as a potent inhibitor to control S. aureus infections.

Distal renal tubular acidosis with nerve deafness secondary to ATP6B1 gene mutation.

Autosomal recessive distal renal tubular acidosis (dRTA) is associated with mutation in the ATP6B1 gene encoding the B1 subunit of H + -ATPase, one of the key membrane transporters for net acid excretion of α-intercalated cells of medullary collecting ducts. Sensori-neural deafness frequently accompanies this type of dRTA. We herewith describe a patient who had distinct features of dRTA with bilateral sensori-neural hearing loss and ATP6B1 mutation. This is a rare entity.

Comparative structural and functional analysis of staphylococcus aureus glucokinase with other bacterial glucokinases

Glucokinase is classified in bacteria based upon having ATP binding site and ‘repressor/open reading frames of unknown function/sugar kinases’ motif, the sequence of glucokinase gene (JN645812) of Staphylococcus aureus ATCC12600 showed presence of ATP binding site and ‘repressor/open reading frames of unknown function/sugar kinases’ motif. We have earlier observed glucokinase of S. aureus has higher affinity towards the substrate compared to other bacterial glucokinase and under anaerobic condition with increased glucose concentration S. aureus exhibited higher rate of biofilm formation. To establish this, 3D structure of glucokinase was built using homology modeling method, the PROCHECK and ProSA-Web analysis indicated this built glucokinase structure was close to the crystal structure. This structure was superimposed with different bacterial glucokinase structures and from the root-mean-square deviation values, it is concluded that S. aureus glucokinase exhibited very close homology with Enterococcus faecalis and Clostridium difficle while with other bacteria it showed high degree of variations both in domain and nondomain regions. Glucose docking results indicated -12.3697 kcal/mol for S. aureus glucokinase compared with other bacterial glucokinase suggesting higher affinity of glucose which correlates with enzyme kinetics and higher rate of biofilm formation.

Novel three missense mutations observed in Von Hippel-Lindau gene in a patient reported with renal cell carcinoma.

Von Hippel-Lindau (VHL) disease is an autosomal dominant hereditary cancer syndrome that predisposes to the development of a variety of benign and malignant tumors, especially cerebellar hemangioblastomas, retinal angiomas and clear-cell renal cell carcinomas (RCC). We have identified of VHL gene using immunohistochemistry in a patient who was diagnosed for RCC. In order to understand the involvement of mutation in the VHL gene exon 1 was amplified and sequenced (accession number: JX 401534). The sequence analysis revealed the presence of novel missense mutations c.194 C>T, c.239 G>A, c.278 G>A, c.319 C>G, c. 337 C > G leading to the following variations p.Ala 65 Val, p.Gly 80 Asp, p.Gly 93 Glu, p.Gln 107 Glu, p.Gln 113 Glu in the protein.

Isolation, purification and characterization of Cardiolipin synthase from Mycobacterium phlei {PRIVATE}.

It has been observed that mycobacterial species has high content of cardiolipin (CL) in their cell membranes more so pathogenic mycobacteria and in bacteria CL activates polymerases, gyrases by removing the bound ADP. Therefore, in the present study cardiolipin synthase (cls) which catalyses the formation of CL was isolated purified and characterized from the cell membrane of Mycobacterium phlei. The purified cls obtained from C-18 RP-HPLC column had a molecular weight of 58 kDa with an isoelectric point of 4.5. The enzyme activity (11.5+0.15 µM of CL phosphorous. ml-1 minute-1 for PG as substrate and 14+0.35µM of CL phosphorous. ml-1 minute-1 for CDP-DG as substrate) was optimal at pH 4.8 and showed KM values of 55+0.05µM and 2.56+0.04µM for phosphatidyl glycerol and CDP-diacylglycerol, respectively, with an absolute requirement of Mg2+ and Mn2+ ions for its activity however, Ca2+ ions inhibited the activity of the cls. The partial amino acid sequence of cls showed significant homology with pgsA3 gene of M. tuberculosis and in this organism the CL biosynthesis is very high having three genes coding for PLs biosynthesis therefore, enzymes involved in CL biosynthesis may be an attractive drug target in the development of new antimycobacterial drugs.