Michael T. Nosek scite author profile

Cryptdins are antimicrobial peptides of the defensin family that are produced by intestinal Paneth cells. mRNAs encoding 17 cryptdin isoforms have been characterized from a cDNA library generated from a single jejunal crypt. Six cryptdin cDNAs correspond to known peptides, and the remainder predict 11 novel Paneth cell defensins. Most cryptdin cDNAs have .93% nucleotide sequence identity overall, except for cryptdin 4 and 5 cDNAs, whose respective mature peptide-encoding regions are only 74 and 78% identical to that of cryptdin 1. Cryptdin cDNAs differ at a small number of nucleotide positions: frequent substitutions were found in codons 38 and 52 of the propiece and in codons 68, 73, 76, 87, and 89 of the deduced peptides; cDNA clones with changes in codons 74, 83, and 88 were found, but there were fewer of these. The antimicrobial activities of cryptdins 1 to 6 were tested against Escherichia coli ML35 in two assays. In an agar diffusion assay, the potencies of cryptdins 1 to 3, 5, and 6 were approximately equivalent to that of rabbit neutrophil defensin NP-1 but cryptdin 4 was 30 times more active than NP-1. In a bactericidal assay system, cryptdins 1 and 3 to 6 were equally active at 10 ,ug/ml but cryptdin 2 and rabbit NP-1 were not active at this concentration. Since cryptdins 2 and 3 differ only at residue 10 (Thr and Lys, respectively), this amino acid appears to function in bactericidal interaction with E. coli. The demonstration that Paneth cells express a diverse population of microbicidal defensins further implicates cryptdins in restricting colonization or invasion of small intestinal epithelium by bacteria.

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ATP-MgPi carrier activity in rat liver mitochondria

Nosek¹,

Aprille²

1992

Archives of Biochemistry and Biophysics

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Adenine nucleotide content of liver mitochondria increases after glucagon treatment of rats or isolated hepatocytes

Aprille

Nosek

Brennan

1982

Biochemical and Biophysical Research Communications

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Na⁺channel and acetylcholine receptor changes in muscle at sites distant from burns do not simulate denervation

Nosek

Martyn

1997

Journal of Applied Physiology

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Muscle weakness and aberrant responses to neuromuscular relaxants after burn injury are associated with upregulation of acetylcholine receptors (AChRs). Typically, these functional, pharmacological, and biochemical changes occur after denervation, in which transcriptionally mediated qualitative changes in AChRs and Na+ channels and of myogenic regulatory proteins MyoD and myogenin also occur. This study in rats, by an examination of changes in the above-enumerated proteins or their transcripts in the gastrocnemius muscle distant from the burn, verifies whether a denervation-like state exists after burns. Scatchard analysis of [3H]saxitoxin binding revealed no changes in the affinity (K(d)) and total number (B(max)) of Na+ channels between control and burn-injured animals at both 7 and 14 days after injury. The mRNA levels of the immature proteins, SkM2 of the Na+ channels and the gamma-subunits of AChRs, the increase of which is pathognomic of denervation, were assessed by Northern analysis and were unchanged. The transcripts of mature Na+ channels, SkM1, were significantly increased at day 14 after the burn (1.24 +/- 0.10 in burn-injured vs. 1.06 +/- 0.12 in sham animals, arbitrary units, P = 0.006). Although MyoD levels were increased in burn-injured animals at 14 days (0.21 +/- 0.02 vs. 0.15 +/- 0.07 arbitrary units, P = 0.05), myogenin levels were unaltered. The absence of changes in AChR transcripts, including alpha-, delta-, and gamma-subunits, indicates that the upregulation of AChR in burns is not transcriptionally mediated. The unaltered levels of transcripts of myogenin, SkM2 of Na+ channels and gamma-subunit of AChR, confirm that there is no denervation-like prejunctional (nerve-related) component to explain the muscle weakness or the upregulation of AChRs at sites distant from burns.

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Michael T. Nosek

Mouse Paneth cell defensins: primary structures and antibacterial activities of numerous cryptdin isoforms

ATP-MgPi carrier activity in rat liver mitochondria

Adenine nucleotide content of liver mitochondria increases after glucagon treatment of rats or isolated hepatocytes

Na⁺channel and acetylcholine receptor changes in muscle at sites distant from burns do not simulate denervation

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Michael T. Nosek

Mouse Paneth cell defensins: primary structures and antibacterial activities of numerous cryptdin isoforms

ATP-MgPi carrier activity in rat liver mitochondria

Adenine nucleotide content of liver mitochondria increases after glucagon treatment of rats or isolated hepatocytes

Na+channel and acetylcholine receptor changes in muscle at sites distant from burns do not simulate denervation

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Na⁺channel and acetylcholine receptor changes in muscle at sites distant from burns do not simulate denervation