Changes in Gravity Inhibit Lymphocyte Locomotion through Type I Collagen

Immunity relies on the circulation of lymphocytes through many different tissues including blood vessels, lymphatic channels, and lymphoid organs. The ability of lymphocytes to traverse the interstitium in both nonlymphoid and lymphoid tissues can be determined in vitro by assaying their capacity to...

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Veröffentlicht in:	In vitro cellular & developmental biology. Animal 1997-05, Vol.33 (5), p.398-405
Hauptverfasser:	Pellis, Neal R., Thomas J. Goodwin, Diana Risin, McIntyre, Bradley W., Roland P. Pizzini, Cooper, David, Tacey L. Baker, Glenn F. Spaulding
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Antigens, CD - analysis Blood Blood vessels Cell Movement Cell Survival Collagen Collagens Cultured cells Humans Life Sciences (General) Locomotion Lymphocytes Lymphocytes - cytology Microgravity Molecules Rats Space flight Space life sciences Space Simulation T lymphocytes Weightlessness
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container_end_page	405
container_issue	5
container_start_page	398
container_title	In vitro cellular & developmental biology. Animal
container_volume	33
creator	Pellis, Neal R. Thomas J. Goodwin Diana Risin McIntyre, Bradley W. Roland P. Pizzini Cooper, David Tacey L. Baker Glenn F. Spaulding
description	Immunity relies on the circulation of lymphocytes through many different tissues including blood vessels, lymphatic channels, and lymphoid organs. The ability of lymphocytes to traverse the interstitium in both nonlymphoid and lymphoid tissues can be determined in vitro by assaying their capacity to locomote through Type I collagen. In an attempt to characterize potential causes of microgravity-induced immunosuppression, we investigated the effects of simulated microgravity on human lymphocyte function in vitro using a specialized rotating-wall vessel culture system developed at the Johnson Space Center. This very low shear culture system randomizes gravitational vectors and provides an in vitro approximation of microgravity. In the randomized gravity of the rotating-wall vessel culture system, peripheral blood lymphocytes did not locomote through Type I collagen, whereas static cultures supported normal movement. Although cells remained viable during the entire culture period, peripheral blood lymphocytes transferred to unit gravity (static culture) after 6 h in the rotating-wall vessel culture system were slow to recover and locomote into collagen matrix. After 72 h in the rotating-wall vessel culture system and an additional 72 h in static culture, peripheral blood lymphocytes did not recover their ability to locomote. Loss of locomotory activity in rotating-wall vessel cultures appears to be related to changes in the activation state of the lymphocytes and the expression of adhesion molecules. Culture in the rotating-wall vessel system blunted the ability of peripheral blood lymphocytes to respond to polyclonal activation with phytohemagglutinin. Locomotory response remained intact when peripheral blood lymphocytes were activated by anti-CD3 antibody and interleukin-2 prior to introduction into the rotating-wall vessel culture system. Thus, in addition to the systemic stress factors that may affect immunity, isolated lymphocytes respond to gravitational changes by ceasing locomotion through model interstitium. These in vitro investigations suggest that microgravity induces non-stress-related changes in cell function that may be critical to immunity. Preliminary analysis of locomotion in true microgravity revealed a substantial inhibition of cellular movement in Type I collagen. Thus, the rotating-wall vessel culture system provides a model for analyzing the microgravity-induced inhibition of lymphocyte locomotion and the investigation of the mechanisms
doi_str_mv	10.1007/s11626-997-0012-7
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Goodwin ; Diana Risin ; McIntyre, Bradley W. ; Roland P. Pizzini ; Cooper, David ; Tacey L. Baker ; Glenn F. Spaulding</creator><creatorcontrib>Pellis, Neal R. ; Thomas J. Goodwin ; Diana Risin ; McIntyre, Bradley W. ; Roland P. Pizzini ; Cooper, David ; Tacey L. Baker ; Glenn F. Spaulding</creatorcontrib><description>Immunity relies on the circulation of lymphocytes through many different tissues including blood vessels, lymphatic channels, and lymphoid organs. The ability of lymphocytes to traverse the interstitium in both nonlymphoid and lymphoid tissues can be determined in vitro by assaying their capacity to locomote through Type I collagen. In an attempt to characterize potential causes of microgravity-induced immunosuppression, we investigated the effects of simulated microgravity on human lymphocyte function in vitro using a specialized rotating-wall vessel culture system developed at the Johnson Space Center. This very low shear culture system randomizes gravitational vectors and provides an in vitro approximation of microgravity. In the randomized gravity of the rotating-wall vessel culture system, peripheral blood lymphocytes did not locomote through Type I collagen, whereas static cultures supported normal movement. Although cells remained viable during the entire culture period, peripheral blood lymphocytes transferred to unit gravity (static culture) after 6 h in the rotating-wall vessel culture system were slow to recover and locomote into collagen matrix. After 72 h in the rotating-wall vessel culture system and an additional 72 h in static culture, peripheral blood lymphocytes did not recover their ability to locomote. Loss of locomotory activity in rotating-wall vessel cultures appears to be related to changes in the activation state of the lymphocytes and the expression of adhesion molecules. 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After 72 h in the rotating-wall vessel culture system and an additional 72 h in static culture, peripheral blood lymphocytes did not recover their ability to locomote. Loss of locomotory activity in rotating-wall vessel cultures appears to be related to changes in the activation state of the lymphocytes and the expression of adhesion molecules. Culture in the rotating-wall vessel system blunted the ability of peripheral blood lymphocytes to respond to polyclonal activation with phytohemagglutinin. Locomotory response remained intact when peripheral blood lymphocytes were activated by anti-CD3 antibody and interleukin-2 prior to introduction into the rotating-wall vessel culture system. Thus, in addition to the systemic stress factors that may affect immunity, isolated lymphocytes respond to gravitational changes by ceasing locomotion through model interstitium. These in vitro investigations suggest that microgravity induces non-stress-related changes in cell function that may be critical to immunity. Preliminary analysis of locomotion in true microgravity revealed a substantial inhibition of cellular movement in Type I collagen. Thus, the rotating-wall vessel culture system provides a model for analyzing the microgravity-induced inhibition of lymphocyte locomotion and the investigation of the mechanisms related to lymphocyte movement.</description><subject>Animals</subject><subject>Antigens, CD - analysis</subject><subject>Blood</subject><subject>Blood vessels</subject><subject>Cell Movement</subject><subject>Cell Survival</subject><subject>Collagen</subject><subject>Collagens</subject><subject>Cultured cells</subject><subject>Humans</subject><subject>Life Sciences (General)</subject><subject>Locomotion</subject><subject>Lymphocytes</subject><subject>Lymphocytes - cytology</subject><subject>Microgravity</subject><subject>Molecules</subject><subject>Rats</subject><subject>Space flight</subject><subject>Space life sciences</subject><subject>Space Simulation</subject><subject>T lymphocytes</subject><subject>Weightlessness</subject><issn>1071-2690</issn><issn>1543-706X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1997</creationdate><recordtype>article</recordtype><sourceid>CYI</sourceid><sourceid>EIF</sourceid><recordid>eNqFkE9rGzEQxUVpcdykH6DQgE69bTKjv9YxmDYxLOTiQm5Cu5a9a7wrR5IL--2jYJMeOzpomPfeMPwI-Y5whwD6PiEqpipjdAWArNKfyByl4JUG9fK59KCxYsrAFfma0h5KGVQzMjNoyhTm5GnZuXHnE-1H-hjd3z5PdDV2fdNnWk_DsQvtlD2tQxuGkPsw0tzFcNp1dD0dPV3RZTgc3M6PN-TL1h2S_3b5r8mf37_Wy6eqfn5cLR_qquXK5GqzcY5LsZAeZKOVYsIwb0ApseACGuZap9E1insulXS8kShdq7cLp0t5wa_Jz_PeYwyvJ5-yHfrU-nLE6MMpWW1Al_d_IyquOQpTjHg2tjGkFP3WHmM_uDhZBPuO2Z4x24LZvmO2umRuL8tPzeA3H4kL16L_OOujS86OOSbLAASgUlqyf_I-5RA_0oIZoZDxN5gYiK4</recordid><startdate>19970501</startdate><enddate>19970501</enddate><creator>Pellis, Neal R.</creator><creator>Thomas J. 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Animal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Pellis, Neal R.</au><au>Thomas J. Goodwin</au><au>Diana Risin</au><au>McIntyre, Bradley W.</au><au>Roland P. Pizzini</au><au>Cooper, David</au><au>Tacey L. Baker</au><au>Glenn F. Spaulding</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Changes in Gravity Inhibit Lymphocyte Locomotion through Type I Collagen</atitle><jtitle>In vitro cellular & developmental biology. Animal</jtitle><addtitle>In Vitro Cell Dev Biol Anim</addtitle><date>1997-05-01</date><risdate>1997</risdate><volume>33</volume><issue>5</issue><spage>398</spage><epage>405</epage><pages>398-405</pages><issn>1071-2690</issn><eissn>1543-706X</eissn><abstract>Immunity relies on the circulation of lymphocytes through many different tissues including blood vessels, lymphatic channels, and lymphoid organs. The ability of lymphocytes to traverse the interstitium in both nonlymphoid and lymphoid tissues can be determined in vitro by assaying their capacity to locomote through Type I collagen. In an attempt to characterize potential causes of microgravity-induced immunosuppression, we investigated the effects of simulated microgravity on human lymphocyte function in vitro using a specialized rotating-wall vessel culture system developed at the Johnson Space Center. This very low shear culture system randomizes gravitational vectors and provides an in vitro approximation of microgravity. In the randomized gravity of the rotating-wall vessel culture system, peripheral blood lymphocytes did not locomote through Type I collagen, whereas static cultures supported normal movement. Although cells remained viable during the entire culture period, peripheral blood lymphocytes transferred to unit gravity (static culture) after 6 h in the rotating-wall vessel culture system were slow to recover and locomote into collagen matrix. After 72 h in the rotating-wall vessel culture system and an additional 72 h in static culture, peripheral blood lymphocytes did not recover their ability to locomote. Loss of locomotory activity in rotating-wall vessel cultures appears to be related to changes in the activation state of the lymphocytes and the expression of adhesion molecules. Culture in the rotating-wall vessel system blunted the ability of peripheral blood lymphocytes to respond to polyclonal activation with phytohemagglutinin. Locomotory response remained intact when peripheral blood lymphocytes were activated by anti-CD3 antibody and interleukin-2 prior to introduction into the rotating-wall vessel culture system. Thus, in addition to the systemic stress factors that may affect immunity, isolated lymphocytes respond to gravitational changes by ceasing locomotion through model interstitium. These in vitro investigations suggest that microgravity induces non-stress-related changes in cell function that may be critical to immunity. Preliminary analysis of locomotion in true microgravity revealed a substantial inhibition of cellular movement in Type I collagen. Thus, the rotating-wall vessel culture system provides a model for analyzing the microgravity-induced inhibition of lymphocyte locomotion and the investigation of the mechanisms related to lymphocyte movement.</abstract><cop>Legacy CDMS</cop><pub>Society for In Vitro Biology</pub><pmid>9196900</pmid><doi>10.1007/s11626-997-0012-7</doi><tpages>8</tpages></addata></record>
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source	Jstor Complete Legacy; MEDLINE; Springer Nature - Complete Springer Journals; NASA Technical Reports Server
subjects	Animals Antigens, CD - analysis Blood Blood vessels Cell Movement Cell Survival Collagen Collagens Cultured cells Humans Life Sciences (General) Locomotion Lymphocytes Lymphocytes - cytology Microgravity Molecules Rats Space flight Space life sciences Space Simulation T lymphocytes Weightlessness
title	Changes in Gravity Inhibit Lymphocyte Locomotion through Type I Collagen
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