Cytoskeletal disruption and growth arrest consistently occur in space‐flown human acute leukemic T cells (Jurkat). Although the microtubules appear to reorganize during spaceflight, cells remain nonproliferative. To test the hypothesis that spaceflight alters cytoskeletal gene expression and may thus affect cytoskeletal function, we flew Jurkat cells on Space Transportation System (STS) 95 and compared RNA message by cDNA microarray in space‐flown vs. ground controls at 24 h (4,324 genes) and 48 h (>20,000 genes). Messages for 11 cytoskeleton‐related genes, including calponin, dynactin, tropomodulin, keratin 8, two myosins, an ankyrin EST, an actinlike protein, the cytoskeletal linker (plectin), and a centriole‐associated protein (C‐NAP1), were up‐regulated in space‐flown compared with ground control cells; gelsolin precursor was down‐regulated. Up‐regulation of plectin and C‐NAP1 message in both space‐flown cells and vibrated controls is a novel finding and implies their role in vibration damage repair. This first report of cDNA microarray screening of gene expression in space‐flown leukemic T cells also identifies differential expression of genes that regulate growth, metabolism, signal transduction, adhesion, transcription, apoptosis, and tumor suppression. Based on differential expression of cytoskeletal genes, we conclude that centriole‐centriole, membrane‐cytoskeletal, and cytoskeletal filament associations are altered in the orbital phase of spaceflight.
The genetic response of human cells to sublethal thermal injury was assessed by gene expression profiling, using macroarrays containing 588 complementary known genes. At 1, 4, 8, and 24 h following thermal injury, RNA was isolated, and a cDNA copy was generated incorporating (33)P and hybridized to Atlas arrays. About one-fifth of the genes on the membrane exhibited a significant elevation or depression in expression (>/=2-fold) by 4 h posttreatment. Genes for heat shock proteins (HSPs) were upregulated as well as genes for transcription factors, growth regulation, and DNA repair. Cluster analysis was performed to assess temporal relationships between expression of genes. Translation of mRNA for some expressed genes, including HSP70 and HSP40, was corroborated by Western blotting. Gene expression profiling can be used to determine information about gene responses to thermal injury by retinal pigment epithelium cells following sublethal injury. The induction of gene expression following thermal injury involves a number of genes not previously identified as related to the stress response.
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