Clinical aspects of the Mycobacterium abscessus complex

Knowledge of the prevalence of latent Mycobacterium tuberculosis infection is crucial for effective tuberculosis control, but tuberculin skin test surveys have major limitations, including poor specificity because of the broad antigenic cross-reactivity of tuberculin. The M. tuberculosis RD1 genomic segment encodes proteins, such as early secretory antigenic target (ESAT)-6, that are absent from M. bovis bacille Calmette-Guérin (BCG) and most environmental mycobacteria. We recently identified circulating ESAT-6-specific T cells as an accurate marker of M. tuberculosis infection. Here, interferon-gamma-secreting T cells specific for peptides derived from ESAT-6 and a second RD1 gene product, CFP10, were enumerated in 100 prospectively recruited healthy adults in Bombay (Mumbai), India. Eighty percent responded to >/=1 antigen, and many donors had high frequencies of T cells that were specific for certain immunodominant peptides. In contrast, of 40 mostly BCG-vaccinated, United Kingdom-resident healthy adults, none responded to either antigen. This study suggests an 80% prevalence of latent M. tuberculosis infection in urban India.

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Very Small Embryonic-Like Stem Cells with Maximum Regenerative Potential Get Discarded During Cord Blood Banking and Bone Marrow Processing for Autologous Stem Cell Therapy

Bhartiya

Shaikh²,

Nagvenkar³

et al. 2012

Stem Cells and Development

103

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Very small embryonic-like stem cells (VSELs) are possibly lost during cord blood banking and bone marrow (BM) processing for autologus stem cell therapy mainly because of their small size. The present study was conducted on human umbilical cord blood (UCB, n=6) and discarded red blood cells (RBC) fraction obtained after separation of mononuclear cells from human BM (n=6), to test this hypothesis. The results show that VSELs, which are pluripotent stem cells with maximum regenerative potential, settle along with the RBCs during Ficoll-Hypaque density separation. These cells are very small in size (3-5 μm), have high nucleo-cytoplasmic ratio, and express nuclear Oct-4, cell surface protein SSEA-4, and other pluripotent markers such as Nanog, Sox-2, Rex-1, and Tert as indicated by immunolocalization and quantitative polymerase chain reaction (Q-PCR) studies. Interestingly, a distinct population of slightly larger, round hematopoietic stem cells (HSCs) with cytoplasmic Oct-4 were detected in the "buffy" coat, which usually gets banked or used during autologus stem cell therapy. Immunohistochemical studies on the umbilical cord tissue (UCT) sections (n=3) showed the presence of nuclear Oct-4-positive VSELs and many fibroblast-like mesenchymal stem cells (MSCs) with cytoplasmic Oct-4. These VSELs with nuclear Oct-4, detected in UCB, UCT, and discarded RBC fraction obtained after BM processing, may persist throughout life, maintain tissue homeostasis, and undergo asymmetric cell division to self-renew as well as produce larger progenitor stem cells, viz. HSCs or MSCs, which follow differentiation trajectories depending on the somatic niche. Hence, it can be concluded that the true stem cells in adult body tissues are the VSELs, whereas the HSCs and MSCs are actually progenitor stem cells that arise by asymmetric cell division of VSELs. The results of the present study may help explain low efficacy reported during adult autologous stem cell trials, wherein unknowingly progenitor stem cells are injected rather than the pluripotent stem cells with maximum regenerative potential.

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Derivation and Characterization of Two Genetically Unique Human Embryonic Stem Cell Lines on In-House–Derived Human Feeders

Kumar

Hinduja²,

Nagvenkar³

et al. 2009

Stem Cells and Development

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This study describes the successful derivation of two human embryonic stem (hES) cell lines using 53 frozen and 18 fresh "slow-growing" surplus embryos, obtained from collaborating in vitro fertilization clinics, on in-house-derived human feeder layers. The cell lines have been derived by whole embryo culture followed by further expansion of manually dissected inner cell mass from the surrounding trophoectodermal cells. Immunocytochemical localization of cell surface markers like SSEA-3, SSEA-4, TRA-1-60, and TRA-1-81, staining for alkaline phosphatase and reverse transcriptase polymerase chain reaction (RT-PCR) analysis of pluripotency state markers viz. Oct-4, TERT, Nanog, Rex1, and Sox2 indicate that both cell lines possess typical features of embryonic stem cells. Both cell lines exhibit normal female karyotype after 40 passages in culture. Pluripotent nature of the cell lines was confirmed both in vitro and in vivo. Embryoid bodies, formed in suspension culture, express markers for all three lineages as indicated by RT-PCR analysis for SOX 1 (ectoderm), HAND 1 (mesoderm), AFP (endoderm), and CDX2 (trophoectoderm). Teratoma formed in vivo in severe combined immunodeficient mice revealed cells of all the three embryonic germ layers. Comparison of the STR and human leukocyte antigen profiles of these cell lines with the existing human ES cell lines indicate that they are genetically distinct. The addition of our hES cell lines contributes usefully to the globally restricted repertoire of human ES cell lines.

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Molecular and phenotypic characterization of CD133 and SSEA4 enriched very small embryonic-like stem cells in human cord blood

et al. 2015

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Very small embryonic-like stem cells (VSELs) are immature primitive cells residing in adult and fetal tissues. This study describes enrichment strategy and molecular and phenotypic characterization of human cord blood VSELs. Flow cytometry analysis revealed that a majority of VSELs (LIN(-)/CD45(-)/CD34(+)) were present in the red blood cell (RBC) pellet after Ficoll-Hypaque centrifugation in contrast to the hematopoietic stem cells (LIN(-)/CD45(+)/CD34(+)) in the interphase layer. Thus, after lyses of RBCs, VSELs were enriched using CD133 and SSEA4 antibodies. These enriched cells were small in size (4-6 μm), spherical, exhibited telomerase activity and expressed pluripotent stem cell (OCT4A, OCT4, SSEA4, NANOG, SOX2, REX1), primordial germ cell (STELLA, FRAGILIS) as well as primitive hematopoietic (CD133, CD34) markers at protein and transcript levels. Heterogeneity was noted among VSELs based on subtle differences in expression of various markers studied. DNA analysis and cell cycle studies revealed that a majority of enriched VSELs were diploid, non-apoptotic and in G0/G1 phase, reflecting their quiescent state. VSELs also survived 5-fluorouracil treatment in vitro and treated cells entered into cell cycle. This study provides further support for the existence of pluripotent, diploid and relatively quiescent VSELs in cord blood and suggests further exploration of the subpopulations among them.

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Comparison of the sperm aneuploidy rate in severe oligozoospermic and oligozoospermic men and its relation to intracytoplasmic sperm injection outcome

Nagvenkar

Zaveri²,

Hinduja

2005

Fertility and Sterility

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Polycomb group protein expression during differentiation of human embryonic stem cells into pancreatic lineage in vitro

2014

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BackgroundPolycomb Group (PcG) proteins are chromatin modifiers involved in early embryonic development as well as in proliferation of adult stem cells and cancer cells. PcG proteins form large repressive complexes termed Polycomb Repressive Complexes (PRCs) of which PRC1 and PRC2 are well studied. Differentiation of human Embryonic Stem (hES) cells into insulin producing cells has been achieved to limited extent, but several aspects of differentiation remain unexplored. The PcG protein dynamics in human embryonic stem (hES) cells during differentiation into pancreatic lineage has not yet been reported. In the present study, the expression of RING1A, RING1B, BMI1, CBX2, SUZ12, EZH2, EED and JARID2 during differentiation of hES cells towards pancreatic lineage was examined.ResultsIn-house derived hES cell line KIND1 was used to study expression of PcG protein upon spontaneous and directed differentiation towards pancreatic lineage. qRT-PCR analysis showed expression of gene transcripts for various lineages in spontaneously differentiated KIND1 cells, but no differentiation into pancreatic lineage was observed. Directed differentiation induced KIND1 cells grown under feeder-free conditions to transition from definitive endoderm (Day 4), primitive gut tube stage (Day 8) and pancreatic progenitors (Day 12-Day 16) as evident from expression of SOX17, PDX1 and SOX9 by qRT-PCR and Western blotting. In spontaneously differentiating KIND1 cells, RING1A and SUZ12 were upregulated at day 15, while other PcG transcripts were downregulated. qRT-PCR analysis showed transcripts of RING1B, BMI1, SUZ12, EZH2 and EED were upregulated, while RING1A and CBX2 expression remained low and JARID2 was downregulated during directed differentiation of KIND1 cells. Upregulation of BMI1, EZH2 and SUZ12 during differentiation into pancreatic lineage was also confirmed by Western blotting. Histone modifications such as H3K27 trimethylation and monoubiquitinylation of H2AK119 increased during differentiation into pancreatic lineage as seen by Western blotting.ConclusionOur study shows expression of PcG proteins was distinct during spontaneous and directed differentiation. Differentiation into pancreatic lineage was achieved by directed differentiation approach and was associated with increased expression of PcG proteins RING1B, BMI1, EZH2 and SUZ12 accompanied by increase in monoubiquitinylation of H2AK119 and trimethylation of H3K27.

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Evaluating differentiation propensity of in-house derived human embryonic stem cell lines KIND-1 and KIND-2

Nagvenkar

Pethe

Pawani

et al. 2011

In Vitro Cell.Dev.Biol.-Animal

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Human embryonic stem (hES) cells possess the ability to self-renew indefinitely and provide a potential source of differentiated progeny representing all three embryonic germ layers. Although hES cell lines share the expression of typical pluripotency markers, limited data is available regarding their differentiation capabilities. We have earlier reported the in-house derivation of two hES cell lines, KIND-1 and KIND-2 on human feeders. Here, we describe a comparative study carried out on both these cell lines to better understand the differentiation potential of KIND-1 and KIND-2 by gene expression analysis of representative gene transcripts reflecting pluripotency and the three germ layers viz. ectoderm, mesoderm, and endoderm. Gene expression analysis and immunolocalization studies were undertaken on (a) 7- and 14-d old embryoid bodies (EBs) (b) spontaneously differentiated cells from EBs, (c) cells derived from EBs under the influence of various growth factor treatments and (d) KIND-1 and KIND-2 cells co-cultured on mouse embryonic visceral endoderm-like feeder (END-2). Despite both the cell lines being XX, derived, passaged, and cultured similarly, KIND-1 exhibits preferential differentiation towards endodermal lineage whereas KIND-2 spontaneously forms beating cardiomyocytes. Perhaps the occurrence of discrete epigenetic profile in both the cell lines predisposes them to encompass different developmental potential in vitro. Our data provide evidence for existence of distinct differentiation propensity among hES cell lines and emphasizes the need to derive more hES cell lines for future regenerative medicine.

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Differentiation of human ES cell line KIND-2 to yield tripotent cardiovascular progenitors

Pawani

Nagvenkar

Pethe

et al. 2013

In Vitro Cell.Dev.Biol.-Animal

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Human embryonic stem cells (hESCs) have the ability to differentiate into all the three lineages and are an ideal starting material to obtain cells of desired lineage for regenerative medicine. Continued efforts are needed to evolve more robust protocols to obtain cells of desired lineages and in larger numbers. Also, it has now been realized that rather than transplanting fully committed cells differentiated in vitro, it may be ideal to transplant committed progenitors which retain the intrinsic ability to proliferate and also differentiate better into multiple lineages based on the in vivo cues. For cardiac regeneration, the desired progenitor is a multipotent cardiovascular progenitor which has the ability to regenerate cardiomyocytes, endothelial cells, and also smooth muscle cells. The present study was undertaken to carefully compare three widely used protocols to differentiate hESCs into cardiac progenitors, viz., spontaneous differentiation, differentiation by END-2-conditioned medium, and directed differentiation using growth factors followed by quantitative PCR to study the relative expression of early cardiovascular markers. hESC differentiation mimicked the early embryonic development, and the transition into mesoendoderm, mesoderm, early cardiac progenitors, and cardiac cells associated with spontaneous beating was clearly evident in all the three groups. However, compared to spontaneous and END-2-associated differentiation, directed differentiation led to several-fold higher expression of cardiac transcripts (>75-fold Nkx2.5 and >150-fold Tbx5) in response to the stage-specific addition of well-established cardiogenic inducers and inhibitors of specific signaling pathways. We propose to use tripotent cardiovascular progenitors derived by directed differentiation for further preclinical studies.

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Punam Nagvenkar

Enumeration of T Cells Specific for RD1‐Encoded Antigens Suggests a High Prevalence of LatentMycobacterium tuberculosisInfection in Healthy Urban Indians

Very Small Embryonic-Like Stem Cells with Maximum Regenerative Potential Get Discarded During Cord Blood Banking and Bone Marrow Processing for Autologous Stem Cell Therapy

Derivation and Characterization of Two Genetically Unique Human Embryonic Stem Cell Lines on In-House–Derived Human Feeders

Molecular and phenotypic characterization of CD133 and SSEA4 enriched very small embryonic-like stem cells in human cord blood

Comparison of the sperm aneuploidy rate in severe oligozoospermic and oligozoospermic men and its relation to intracytoplasmic sperm injection outcome

Polycomb group protein expression during differentiation of human embryonic stem cells into pancreatic lineage in vitro

Evaluating differentiation propensity of in-house derived human embryonic stem cell lines KIND-1 and KIND-2

Differentiation of human ES cell line KIND-2 to yield tripotent cardiovascular progenitors

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