Development of a small molecule that corrects misfolding and increases secretion of Z α1 -antitrypsin.

Targeting a surface cavity of 1-antitrypsin to prevent conformational disease

Parfrey, Helen
Mahadeva, Ravi
Ravenhill, Neil A.
Zhou, Aiwu
Dafforn, Timothy R.
Foreman, Richard C.
Lomas, David A.

August 2003

Conformational diseases are caused by a structural rearrangement within a protein that results in ab...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with α1-antitrypsin deficiency

Miranda, E.
Pérez, J.
Ekeowa, U.I.
Hadzic, N.
Kalsheker, N.
Gooptu, Bibek
Portmann, B.
Belorgey, D.
Hill, M.
Chambers, S.
Teckman, J.
Alexander, G.J.
Marciniak, S.J.
Lomas, D.A.

September 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

Deficiency mutations of α1-antitrypsin differentially affect folding, function and polymerization

Haq, I.
Irving, J.
Saleh, A.D.
Dron, L.
Regan-Mochrie, G.L.
Motamedi-Shad, N.
Hurst, J.R.
Gooptu, Bibek
Lomas, D.A.

January 2016

Misfolding, polymerisation and defective secretion of functional α1-antitrypsin underlies the predis...

Development of a small molecule that corrects misfolding and increases secretion of Z α1‐antitrypsin

David A Lomas
James A Irving
Christopher Arico‐Muendel
Svetlana Belyanskaya
Andrew Brewster
Murray Brown
Chun‐wa Chung
Hitesh Dave
Alexis Denis
Nerina Dodic
Anthony Dossang
Peter Eddershaw
Diana Klimaszewska
Imran Haq
Duncan S Holmes
Jonathan P Hutchinson
Alistair M Jagger
Toral Jakhria
Emilie Jigorel
John Liddle
Ken Lind
Stefan J Marciniak
Jeff Messer
Margaret Neu
Allison Olszewski
Adriana Ordonez
Riccardo Ronzoni
James Rowedder
Martin Rüdiger
Steve Skinner
Kathrine J Smith
Rebecca Terry
Lionel Trottet
Iain Uings
Steve Wilson
Zhengrong Zhu
Andrew C Pearce

March 2021

Abstract Severe α1‐antitrypsin deficiency results from the Z allele (Glu342Lys) that causes the accu...

Development of a small molecule that corrects misfolding and increases secretion of Z α1 -antitrypsin

Lomas, DA
Irving, JA
Arico-Muendel, C
Belyanskaya, S
Brewster, A
Brown, M
Chung, C-W
Dave, H
Denis, A
Dodic, N
Dossang, A
Eddershaw, P
Klimaszewska, D
Haq, I
Holmes, DS
Hutchinson, JP
Jagger, AM
Jakhria, T
Jigorel, E
Liddle, J
Lind, K
Marciniak, SJ
Messer, J
Neu, M
Olszewski, A
Ordonez, A
Ronzoni, R
Rowedder, J
Rüdiger, M
Skinner, S
Smith, KJ
Terry, R
Trottet, L
Uings, I
Wilson, S
Zhu, Z
Pearce, AC

January 2021

Severe α1‐antitrypsin deficiency results from the Z allele (Glu342Lys) that causes the accumulation ...

Small molecules block the polymerization of Z α1-Antitrypsin and increase the clearance of intracellular aggregates

Mallya, M.
Phillips, R.L.
Saldanha, S.A.
Gooptu, Bibek
Leigh Brown, S.C.
Termine, D.J.
Shirvani, A.M.
Wu, Y.
Sifers, R.N.
Abagyan, R.
Lomas, D.A.

January 2007

The Z mutant of α1-antitrypsin (Glu342Lys) causes a domain swap and the formation of intrahepatic po...

Crystallographic and Cellular Characterisation of Two Mechanisms Stabilising the Native Fold of α1-Antitrypsin: Implications for Disease and Drug Design

Gooptu, Bibek
Miranda, Elena
Nobeli, Irene
Mallya, Meera
Purkiss, Andrew
Leigh Brown, Sarah C.
Summers, Charlotte
Phillips, Russell L.
Lomas, David A.
Barrett, Tracey E.

April 2009

AbstractThe common Z mutant (Glu342Lys) of α1-antitrypsin results in the formation of polymers that ...

The molecular species responsible for α1 -antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, Riccardo
Heyer-Chauhan, Nina
Fra, Annamaria
Pearce, Andrew C
Rüdiger, Martin
Miranda, Elena
Irving, James A
Lomas, David A

January 2020

The formation of ordered Z (Glu342Lys) α1 -antitrypsin polymers in hepatocytes is central to liver d...

Crystallographic and cellular characterisation of two mechanisms stabilising the native fold of α1-Antitrypsin: implications for disease and drug design

Gooptu, Bibek
Miranda, E.
Nobeli, Irene
Mallya, M.
Purkiss, Andrew G.
Leigh Brown, S.C.
Summers, C.
Phillips, R.L.
Lomas, D.A.
Barrett, Tracey E.

April 2009

The common Z mutant (Glu342Lys) of α1-antitrypsin results in the formation of polymers that are reta...

A single-chain variable fragment intrabody prevents intracellular polymerization of Z α1-antitrypsin while allowing its antiproteinase activity.

Ordóñez, Adriana
Pérez, Juan
Tan, Lu
Dickens, Jennifer
Motamedi-Shad, Neda
Irving, James A
Haq, Imran
Ekeowa, Ugo
Marciniak, Stefan
Miranda, Elena
Lomas, David A

June 2015

Mutant Z α1-antitrypsin (E342K) accumulates as polymers within the endoplasmic reticulum (ER) of hep...

Discovery of an inhibitor of Z-alpha1 antitrypsin polymerization.

Valerie Berthelier
Jason Brett Harris
Kasey Noel Estenson
Jerome Baudry

Polymerization of the Z variant alpha-1-antitrypsin (Z-α1AT) results in the most common and severe f...

Discovery of an Inhibitor of Z-Alpha1 Antitrypsin Polymerization

Valerie Berthelier (737300)
Jason Brett Harris (737301)
Kasey Noel Estenson (737302)
Jerome Baudry (442664)

May 2015

<div><p>Polymerization of the Z variant alpha-1-antitrypsin (Z-α1AT) results in the most common and ...

The molecular species responsible for α₁‐antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, R
Heyer‐Chauhan, N
Fra, A
Pearce, AC
Rüdiger, M
Miranda, E
Irving, JA
Lomas, DA

October 2020

The formation of ordered Z (Glu342Lys) α1‐antitrypsin polymers in hepatocytes is central to liver di...

The Z mutation alters the global structural dynamics of α1-antitrypsin.

Victoria A Hughes
Robert Meklemburg
Stephen P Bottomley
Patrick L Wintrode

α1-Antitrypsin (α1AT) deficiency, the most common serpinopathy, results in both emphysema and liver ...

Biophysical characterisation of the pathological Z variant of α1-Antitrypsin

Knaupp, Anja Sylvia

January 2012

Protein misfolding is associated with a range of diseases and occurs when a protein meanders from it...

Targeting a surface cavity of 1-antitrypsin to prevent conformational disease

Parfrey, Helen
Mahadeva, Ravi
Ravenhill, Neil A.
Zhou, Aiwu
Dafforn, Timothy R.
Foreman, Richard C.
Lomas, David A.

August 2003

Conformational diseases are caused by a structural rearrangement within a protein that results in ab...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with α1-antitrypsin deficiency

Miranda, E.
Pérez, J.
Ekeowa, U.I.
Hadzic, N.
Kalsheker, N.
Gooptu, Bibek
Portmann, B.
Belorgey, D.
Hill, M.
Chambers, S.
Teckman, J.
Alexander, G.J.
Marciniak, S.J.
Lomas, D.A.

September 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

Deficiency mutations of α1-antitrypsin differentially affect folding, function and polymerization

Haq, I.
Irving, J.
Saleh, A.D.
Dron, L.
Regan-Mochrie, G.L.
Motamedi-Shad, N.
Hurst, J.R.
Gooptu, Bibek
Lomas, D.A.

January 2016

Misfolding, polymerisation and defective secretion of functional α1-antitrypsin underlies the predis...

Development of a small molecule that corrects misfolding and increases secretion of Z α1‐antitrypsin

David A Lomas
James A Irving
Christopher Arico‐Muendel
Svetlana Belyanskaya
Andrew Brewster
Murray Brown
Chun‐wa Chung
Hitesh Dave
Alexis Denis
Nerina Dodic
Anthony Dossang
Peter Eddershaw
Diana Klimaszewska
Imran Haq
Duncan S Holmes
Jonathan P Hutchinson
Alistair M Jagger
Toral Jakhria
Emilie Jigorel
John Liddle
Ken Lind
Stefan J Marciniak
Jeff Messer
Margaret Neu
Allison Olszewski
Adriana Ordonez
Riccardo Ronzoni
James Rowedder
Martin Rüdiger
Steve Skinner
Kathrine J Smith
Rebecca Terry
Lionel Trottet
Iain Uings
Steve Wilson
Zhengrong Zhu
Andrew C Pearce

March 2021

Abstract Severe α1‐antitrypsin deficiency results from the Z allele (Glu342Lys) that causes the accu...

Development of a small molecule that corrects misfolding and increases secretion of Z α1 -antitrypsin

Lomas, DA
Irving, JA
Arico-Muendel, C
Belyanskaya, S
Brewster, A
Brown, M
Chung, C-W
Dave, H
Denis, A
Dodic, N
Dossang, A
Eddershaw, P
Klimaszewska, D
Haq, I
Holmes, DS
Hutchinson, JP
Jagger, AM
Jakhria, T
Jigorel, E
Liddle, J
Lind, K
Marciniak, SJ
Messer, J
Neu, M
Olszewski, A
Ordonez, A
Ronzoni, R
Rowedder, J
Rüdiger, M
Skinner, S
Smith, KJ
Terry, R
Trottet, L
Uings, I
Wilson, S
Zhu, Z
Pearce, AC

January 2021

Severe α1‐antitrypsin deficiency results from the Z allele (Glu342Lys) that causes the accumulation ...

Small molecules block the polymerization of Z α1-Antitrypsin and increase the clearance of intracellular aggregates

Mallya, M.
Phillips, R.L.
Saldanha, S.A.
Gooptu, Bibek
Leigh Brown, S.C.
Termine, D.J.
Shirvani, A.M.
Wu, Y.
Sifers, R.N.
Abagyan, R.
Lomas, D.A.

January 2007

The Z mutant of α1-antitrypsin (Glu342Lys) causes a domain swap and the formation of intrahepatic po...

Crystallographic and Cellular Characterisation of Two Mechanisms Stabilising the Native Fold of α1-Antitrypsin: Implications for Disease and Drug Design

Gooptu, Bibek
Miranda, Elena
Nobeli, Irene
Mallya, Meera
Purkiss, Andrew
Leigh Brown, Sarah C.
Summers, Charlotte
Phillips, Russell L.
Lomas, David A.
Barrett, Tracey E.

April 2009

AbstractThe common Z mutant (Glu342Lys) of α1-antitrypsin results in the formation of polymers that ...

The molecular species responsible for α1 -antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, Riccardo
Heyer-Chauhan, Nina
Fra, Annamaria
Pearce, Andrew C
Rüdiger, Martin
Miranda, Elena
Irving, James A
Lomas, David A

January 2020

The formation of ordered Z (Glu342Lys) α1 -antitrypsin polymers in hepatocytes is central to liver d...

Crystallographic and cellular characterisation of two mechanisms stabilising the native fold of α1-Antitrypsin: implications for disease and drug design

Gooptu, Bibek
Miranda, E.
Nobeli, Irene
Mallya, M.
Purkiss, Andrew G.
Leigh Brown, S.C.
Summers, C.
Phillips, R.L.
Lomas, D.A.
Barrett, Tracey E.

April 2009

The common Z mutant (Glu342Lys) of α1-antitrypsin results in the formation of polymers that are reta...

A single-chain variable fragment intrabody prevents intracellular polymerization of Z α1-antitrypsin while allowing its antiproteinase activity.

Ordóñez, Adriana
Pérez, Juan
Tan, Lu
Dickens, Jennifer
Motamedi-Shad, Neda
Irving, James A
Haq, Imran
Ekeowa, Ugo
Marciniak, Stefan
Miranda, Elena
Lomas, David A

June 2015

Mutant Z α1-antitrypsin (E342K) accumulates as polymers within the endoplasmic reticulum (ER) of hep...

Discovery of an inhibitor of Z-alpha1 antitrypsin polymerization.

Valerie Berthelier
Jason Brett Harris
Kasey Noel Estenson
Jerome Baudry

Polymerization of the Z variant alpha-1-antitrypsin (Z-α1AT) results in the most common and severe f...

Discovery of an Inhibitor of Z-Alpha1 Antitrypsin Polymerization

Valerie Berthelier (737300)
Jason Brett Harris (737301)
Kasey Noel Estenson (737302)
Jerome Baudry (442664)

May 2015

<div><p>Polymerization of the Z variant alpha-1-antitrypsin (Z-α1AT) results in the most common and ...

The molecular species responsible for α₁‐antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, R
Heyer‐Chauhan, N
Fra, A
Pearce, AC
Rüdiger, M
Miranda, E
Irving, JA
Lomas, DA

October 2020

The formation of ordered Z (Glu342Lys) α1‐antitrypsin polymers in hepatocytes is central to liver di...

The Z mutation alters the global structural dynamics of α1-antitrypsin.

Victoria A Hughes
Robert Meklemburg
Stephen P Bottomley
Patrick L Wintrode

α1-Antitrypsin (α1AT) deficiency, the most common serpinopathy, results in both emphysema and liver ...

Biophysical characterisation of the pathological Z variant of α1-Antitrypsin

Knaupp, Anja Sylvia

January 2012

Protein misfolding is associated with a range of diseases and occurs when a protein meanders from it...

Targeting a surface cavity of 1-antitrypsin to prevent conformational disease

Parfrey, Helen
Mahadeva, Ravi
Ravenhill, Neil A.
Zhou, Aiwu
Dafforn, Timothy R.
Foreman, Richard C.
Lomas, David A.

August 2003

Conformational diseases are caused by a structural rearrangement within a protein that results in ab...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with α1-antitrypsin deficiency

Miranda, E.
Pérez, J.
Ekeowa, U.I.
Hadzic, N.
Kalsheker, N.
Gooptu, Bibek
Portmann, B.
Belorgey, D.
Hill, M.
Chambers, S.
Teckman, J.
Alexander, G.J.
Marciniak, S.J.
Lomas, D.A.

September 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

Deficiency mutations of α1-antitrypsin differentially affect folding, function and polymerization

Haq, I.
Irving, J.
Saleh, A.D.
Dron, L.
Regan-Mochrie, G.L.
Motamedi-Shad, N.
Hurst, J.R.
Gooptu, Bibek
Lomas, D.A.

January 2016

Misfolding, polymerisation and defective secretion of functional α1-antitrypsin underlies the predis...

Development of a small molecule that corrects misfolding and increases secretion of Z α1 -antitrypsin.

Abstract

Extracted data

Development of a small molecule that corrects misfolding and increases secretion of Z α1 -antitrypsin.

Abstract

Extracted data

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