Publikationen
175.
Tangudu NK,
Alan B,
Vinchi F,
Wörle K,
Lai D,
Vettorazzi S,
Leopold K,
Vuji\'c Spasi\'c M.
Scavenging Reactive Oxygen Species Production Normalizes Ferroportin Expression and Ameliorates Cellular and Systemic Iron Disbalances in Hemolytic Mouse Model.
Antioxidants & redox signaling.
2018;
29(5):484—499.
[DOI]
174.
Tangudu NK,
Alan B,
Vinchi F,
Wörle K,
Lai D,
Vettorazzi S,
Leopold K,
Vuji\'c Spasi\'c M.
Scavenging Reactive Oxygen Species Production Normalizes Ferroportin Expression and Ameliorates Cellular and Systemic Iron Disbalances in Hemolytic Mouse Model.
Antioxidants & redox signaling.
2018;
29(5):484—499.
[DOI]
173.
Baake T,
Jörß K,
Suennemann J,
Roßmann L,
Bohnenberger H,
Tuckermann JP,
Reichardt HM,
Fischer HJ,
Reichardt SD.
The glucocorticoid receptor in recipient cells keeps cytokine secretion in acute graft-versus-host disease at bay.
Oncotarget.
2018;
9(21):15437—15450.
[DOI]
172.
Baake T,
Jörß K,
Suennemann J,
Roßmann L,
Bohnenberger H,
Tuckermann JP,
Reichardt HM,
Fischer HJ,
Reichardt SD.
The glucocorticoid receptor in recipient cells keeps cytokine secretion in acute graft-versus-host disease at bay.
Oncotarget.
2018;
9(21):15437—15450.
[DOI]
171.
Baake T,
Jörß K,
Suennemann J,
Roßmann L,
Bohnenberger H,
Tuckermann JP,
Reichardt HM,
Fischer HJ,
Reichardt SD.
The glucocorticoid receptor in recipient cells keeps cytokine secretion in acute graft-versus-host disease at bay.
Oncotarget.
2018;
9(21):15437—15450.
[DOI]
170.
Armacki M,
Trugenberger AK,
Ellwanger AK,
Eiseler T,
Schwerdt C,
Bettac L,
Langgartner D,
Azoitei N,
Halbgebauer R,
Groß R,
Barth T,
Lechel A,
Walter BM,
Kraus JM,
Wiegreffe C,
Grimm J,
Scheffold A,
Schneider MR,
Peuker K,
Zeißig S,
Britsch S,
Rose-John S,
Vettorazzi S,
Wolf E,
Tannapfel A,
Steinestel K,
Reber SO,
Walther P,
Kestler HA,
Radermacher P,
Barth TF,
Huber-Lang M,
Kleger A,
Seufferlein T.
Thirty-eight-negative kinase 1 mediates trauma-induced intestinal injury and multi-organ failure.
The Journal of clinical investigation.
2018;
128(11):5056—5072.
[DOI]
169.
Armacki M,
Trugenberger AK,
Ellwanger AK,
Eiseler T,
Schwerdt C,
Bettac L,
Langgartner D,
Azoitei N,
Halbgebauer R,
Groß R,
Barth T,
Lechel A,
Walter BM,
Kraus JM,
Wiegreffe C,
Grimm J,
Scheffold A,
Schneider MR,
Peuker K,
Zeißig S,
Britsch S,
Rose-John S,
Vettorazzi S,
Wolf E,
Tannapfel A,
Steinestel K,
Reber SO,
Walther P,
Kestler HA,
Radermacher P,
Barth TF,
Huber-Lang M,
Kleger A,
Seufferlein T.
Thirty-eight-negative kinase 1 mediates trauma-induced intestinal injury and multi-organ failure.
J Clin Invest.
2018;
128(11):5056-5072.
[DOI]
[Datei]
168.
Armacki M,
Trugenberger AK,
Ellwanger AK,
Eiseler T,
Schwerdt C,
Bettac L,
Langgartner D,
Azoitei N,
Halbgebauer R,
Groß R,
Barth T,
Lechel A,
Walter BM,
Kraus JM,
Wiegreffe C,
Grimm J,
Scheffold A,
Schneider MR,
Peuker K,
Zeißig S,
Britsch S,
Rose-John S,
Vettorazzi S,
Wolf E,
Tannapfel A,
Steinestel K,
Reber SO,
Walther P,
Kestler HA,
Radermacher P,
Barth TF,
Huber-Lang M,
Kleger A,
Seufferlein T.
Thirty-eight-negative kinase 1 mediates trauma-induced intestinal injury and multi-organ failure.
The Journal of clinical investigation.
2018;
128(11):5056—5072.
[DOI]
167.
Picke A,
Campbell GM,
Blüher M,
Krügel U,
Schmidt FN,
Tsourdi E,
Winzer M,
Rauner M,
Vukicevic V,
Busse B,
Salbach-Hirsch J,
Tuckermann JP,
Simon JC,
Anderegg U,
Hofbauer LC,
Saalbach A.
Thy-1 (CD90) promotes bone formation and protects against obesity.
Science translational medicine.
2018;
10(453):
[DOI]
166.
Picke A,
Campbell GM,
Blüher M,
Krügel U,
Schmidt FN,
Tsourdi E,
Winzer M,
Rauner M,
Vukicevic V,
Busse B,
Salbach-Hirsch J,
Tuckermann JP,
Simon JC,
Anderegg U,
Hofbauer LC,
Saalbach A.
Thy-1 (CD90) promotes bone formation and protects against obesity.
Science translational medicine.
2018;
10(453):
[DOI]
165.
Picke A,
Campbell GM,
Blüher M,
Krügel U,
Schmidt FN,
Tsourdi E,
Winzer M,
Rauner M,
Vukicevic V,
Busse B,
Salbach-Hirsch J,
Tuckermann JP,
Simon JC,
Anderegg U,
Hofbauer LC,
Saalbach A.
Thy-1 (CD90) promotes bone formation and protects against obesity.
Science translational medicine.
2018;
10(453):
[DOI]
164.
Mueller KM,
Hartmann K,
Kaltenecker D,
Vettorazzi S,
Bauer M,
Mauser L,
Amann S,
Jall S,
Fischer K,
Esterbauer H,
Müller TD,
Tschöp MH,
Magnes C,
Haybaeck J,
Scherer T,
Bordag N,
Tuckermann JP,
Moriggl R.
Adipocyte Glucocorticoid Receptor Deficiency Attenuates Aging- and HFD-Induced Obesity and Impairs the Feeding-Fasting Transition.
Diabetes.
2017;
66(2):272—286.
[DOI]
163.
Mueller KM,
Hartmann K,
Kaltenecker D,
Vettorazzi S,
Bauer M,
Mauser L,
Amann S,
Jall S,
Fischer K,
Esterbauer H,
Müller TD,
Tschöp MH,
Magnes C,
Haybaeck J,
Bordag N,
Moriggl R.
Adipocyte Glucocorticoid Receptor Deficiency Attenuates Aging- and HFD-Induced Obesity and Impairs the Feeding-Fasting Transition.
Diabetes.
2017;
66(2):272-286.
[DOI]
[Datei]
162.
Mueller KM,
Hartmann K,
Kaltenecker D,
Vettorazzi S,
Bauer M,
Mauser L,
Amann S,
Jall S,
Fischer K,
Esterbauer H,
Müller TD,
Tschöp MH,
Magnes C,
Haybaeck J,
Scherer T,
Bordag N,
Tuckermann JP,
Moriggl R.
Adipocyte Glucocorticoid Receptor Deficiency Attenuates Aging- and HFD-Induced Obesity and Impairs the Feeding-Fasting Transition.
Diabetes.
2017;
66(2):272—286.
[DOI]
161.
Mueller KM,
Hartmann K,
Kaltenecker D,
Vettorazzi S,
Bauer M,
Mauser L,
Amann S,
Jall S,
Fischer K,
Esterbauer H,
Müller TD,
Tschöp MH,
Magnes C,
Haybaeck J,
Scherer T,
Bordag N,
Tuckermann JP,
Moriggl R.
Adipocyte Glucocorticoid Receptor Deficiency Attenuates Aging- and HFD-Induced Obesity and Impairs the Feeding-Fasting Transition.
Diabetes.
2017;
66(2):272—286.
[DOI]
160.
Klaßen C,
Karabinskaya A,
Dejager L,
Vettorazzi S,
Moorleghem J,
Lühder F,
Meijsing SH,
Tuckermann JP,
Bohnenberger H,
Libert C,
Reichardt HM.
Airway Epithelial Cells Are Crucial Targets of Glucocorticoids in a Mouse Model of Allergic Asthma.
Journal of immunology (Baltimore, Md. : 1950).
2017;
199(1):48—61.
[DOI]
159.
Klaßen C,
Karabinskaya A,
Dejager L,
Vettorazzi S,
Moorleghem J,
Lühder F,
Meijsing SH,
Tuckermann JP,
Bohnenberger H,
Libert C,
Reichardt HM.
Airway Epithelial Cells Are Crucial Targets of Glucocorticoids in a Mouse Model of Allergic Asthma.
Journal of immunology (Baltimore, Md. : 1950).
2017;
199(1):48—61.
[DOI]
158.
Klaßen C,
Karabinskaya A,
Dejager L,
Vettorazzi S,
Moorleghem J,
Lühder F,
Meijsing SH,
Tuckermann JP,
Bohnenberger H,
Libert C,
Reichardt HM.
Airway Epithelial Cells Are Crucial Targets of Glucocorticoids in a Mouse Model of Allergic Asthma.
Journal of immunology (Baltimore, Md. : 1950).
2017;
199(1):48—61.
[DOI]
157.
Liu P,
Lee S,
Knoll J,
Rauch A,
Ostermay S,
Luther J,
Malkusch N,
Lerner UH,
Zaiss MM,
Neven M,
Wittig R,
Rauner M,
David J,
Bertolino P,
Zhang CX,
Tuckermann JP.
Loss of menin in osteoblast lineage affects osteocyte-osteoclast crosstalk causing osteoporosis.
Cell death and differentiation.
2017;
24(4):672—682.
[DOI]
156.
Liu P,
Lee S,
Knoll J,
Rauch A,
Ostermay S,
Luther J,
Malkusch N,
Lerner UH,
Zaiss MM,
Neven M,
Wittig R,
Rauner M,
David J,
Bertolino P,
Zhang CX,
Tuckermann JP.
Loss of menin in osteoblast lineage affects osteocyte-osteoclast crosstalk causing osteoporosis.
Cell death and differentiation.
2017;
24(4):672—682.
[DOI]
155.
Liu P,
Lee S,
Knoll J,
Rauch A,
Ostermay S,
Luther J,
Malkusch N,
Lerner UH,
Zaiss MM,
Neven M,
Wittig R,
Rauner M,
David J,
Bertolino P,
Zhang CX,
Tuckermann JP.
Loss of menin in osteoblast lineage affects osteocyte-osteoclast crosstalk causing osteoporosis.
Cell death and differentiation.
2017;
24(4):672—682.
[DOI]
154.
153.
Quarta C,
Clemmensen C,
Zhu Z,
Yang B,
Joseph SS,
Lutter D,
Yi C,
Graf E,
García-Cáceres C,
Legutko B,
Fischer K,
Brommage R,
Zizzari P,
Franklin BS,
Krueger M,
Koch M,
Vettorazzi S,
Li P,
Hofmann SM,
Bakhti M,
Bastidas-Ponce A,
Lickert H,
Strom TM,
Gailus-Durner V,
Bechmann I,
Perez-Tilve D,
Tuckermann J,
Angelis M,
Sandoval D,
Cota D,
Latz E,
Seeley RJ,
Müller TD,
DiMarchi RD,
Finan B,
Tschöp MH.
Molecular Integration of Incretin and Glucocorticoid Action Reverses Immunometabolic Dysfunction and Obesity.
Cell metabolism.
2017;
26(4):620-632.e6.
[DOI]
152.
Quarta C,
Clemmensen C,
Zhu Z,
Yang B,
Joseph SS,
Lutter D,
Yi C,
Graf E,
García-Cáceres C,
Legutko B,
Fischer K,
Brommage R,
Zizzari P,
Franklin BS,
Krueger M,
Koch M,
Vettorazzi S,
Li P,
Hofmann SM,
Bakhti M,
Bastidas-Ponce A,
Lickert H,
Strom TM,
Gailus-Durner V,
Bechmann I,
Perez-Tilve D,
Tuckermann J,
Angelis M,
Sandoval D,
Cota D,
Latz E,
Seeley RJ,
Müller TD,
DiMarchi RD,
Finan B,
Tschöp MH.
Molecular Integration of Incretin and Glucocorticoid Action Reverses Immunometabolic Dysfunction and Obesity.
Cell metabolism.
2017;
26(4):620-632.e6.
[DOI]
151.
Quarta C,
Clemmensen C,
Zhu Z,
Yang B,
Joseph SS,
Lutter D,
Yi C,
Graf E,
García-Cáceres C,
Legutko B,
Fischer K,
Brommage R,
Zizzari P,
Franklin BS,
Krueger M,
Koch M,
Vettorazzi S,
Li P,
Hofmann SM,
Bakhti M,
Bastidas-Ponce A,
Lickert H,
Strom TM,
Gailus-Durner V,
Bechmann I,
Perez-Tilve D,
Tuckermann J,
Angelis M,
Sandoval D,
Cota D,
Latz E,
Seeley RJ,
Müller TD,
DiMarchi RD,
Finan B,
Tschöp MH.
Molecular Integration of Incretin and Glucocorticoid Action Reverses Immunometabolic Dysfunction and Obesity.
Cell metabolism.
2017;
26(4):620-632.e6.
[DOI]