Sangeeta Khanna scite author profile

Mutations in dystrophin cause Duchenne muscular dystrophy (DMD), but absent dystrophin does not invariably cause necrosis in all muscles, life stages and species. Using DNA microarray, we established a molecular signature of dystrophinopathy in the mdx mouse, with evidence that secondary mechanisms are key contributors to pathogenesis. We used variability controls, adequate replicates and stringent analytic tools, including significance analysis of microarrays to estimate and manage false positive rates. In leg muscle, we identified 242 differentially expressed genes, >75% of which have not been previously reported as altered in human or animal dystrophies. Data provide evidence for coordinated activity of numerous components of a chronic inflammatory response, including cytokine and chemokine signaling, leukocyte adhesion and diapedesis, invasive cell type-specific markers, and complement system activation. Selective chemokine upregulation was confirmed by RT-PCR and immunoblot, and may be a key determinant of the nature of the inflammatory response in dystrophic muscle. Up-regulation of secreted phosphoprotein 1 (minopontin, osteopontin) mRNA and protein in dystrophic muscle identified a novel linkage between inflammatory cells and repair processes. Extracellular matrix genes were up-regulated in mdx to levels similar to those in DMD. Since, unlike DMD, mdx exhibits little fibrosis, data suggest that collagen regulation at post-transcriptional stages mediates extensive fibrosis in DMD. Taken together, these data identify a relatively neglected aspect of DMD, suggest new treatment avenues, and highlight the value of genome-wide profiling in study of complex disease processes.

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Extraocular muscle is defined by a fundamentally distinct gene expression profile

Porter

Khanna

Kaminski

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

204

198

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Skeletal muscle fibers are defined by patterned covariation of key traits that determine contractile and metabolic characteristics. Although the functional properties of most skeletal muscles result from their proportional content of a few conserved muscle fiber types, some, typically craniofacial, muscles exhibit fiber types that appear to lie outside the common phenotypic range. We analyzed gene expression profiles of three putative muscle classes, limb, masticatory, and extraocular muscle (EOM), in adult mice by high-density oligonucleotide arrays. Pairwise comparisons using conservative acceptance criteria identified expression differences in 287 genes between EOM and limb and͞or masticatory muscles. Use of significance analysis of microarrays methodology identified up to 400 genes as having an EOM-specific expression pattern. Genes differentially expressed in EOM reflect key aspects of muscle biology, including transcriptional regulation, sarcomeric organization, excitation-contraction coupling, intermediary metabolism, and immune response. These patterned differences in gene expression define EOM as a distinct muscle class and may explain the unique response of these muscles in neuromuscular diseases.

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Whole genome expression and biochemical correlates of extreme constitutional types defined in Ayurveda

et al. 2008

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Background: Ayurveda is an ancient system of personalized medicine documented and practiced in India since 1500 B.C. According to this system an individual's basic constitution to a large extent determines predisposition and prognosis to diseases as well as therapy and life-style regime. Ayurveda describes seven broad constitution types (Prakritis) each with a varying degree of predisposition to different diseases. Amongst these, three most contrasting types, Vata, Pitta, Kapha, are the most vulnerable to diseases. In the realm of modern predictive medicine, efforts are being directed towards capturing disease phenotypes with greater precision for successful identification of markers for prospective disease conditions. In this study, we explore whether the different constitution types as described in Ayurveda has molecular correlates.

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Laryngo-tracheo-bronchial foreign bodies in children

et al. 1988

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Inhalation of a foreign body into the respiratory passage can be a serious and sometimes fatal childhood accident. In this paper we analyse the management of 223 children with laryngo-tracheo-bronchial foreign bodies. Children below three years of age were found to be the most vulnerable. The majority of the patients were boys. Over a quarter of the patients did not present with a history of inhalation. Only 52 per cent reported within 24 hours of inhalation. Endoscopic removal was possible in all but nine cases. One hundred and forty eight (66.4 per cent) of the recovered foreign bodies were organic in origin, the majority of them being peanuts. In one hundred and five (47.1 per cent) the objects found their way into the right bronchial tree. There were two deaths. The modalities of diagnosis and management are discussed.

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Sangeeta Khanna

A chronic inflammatory response dominates the skeletal muscle molecular signature in dystrophin-deficient mdx mice

Extraocular muscle is defined by a fundamentally distinct gene expression profile

Whole genome expression and biochemical correlates of extreme constitutional types defined in Ayurveda

Laryngo-tracheo-bronchial foreign bodies in children

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