Structures of five mutants of toxic shock syndrome toxin-1 with reduced biological activity

Cathleen A. Earhart; David T. Mitchell; Debra L. Murray; Denise M. Pinheiro; Masazumi Matsumura; Patrick M. Schlievert; Douglas H. Ohlendorf

doi:10.1021/bi9721896

Structures of five mutants of toxic shock syndrome toxin-1 with reduced biological activity

Cathleen A. Earhart, David T. Mitchell, Debra L. Murray, Denise M. Pinheiro, Masazumi Matsumura, Patrick M. Schlievert, Douglas H. Ohlendorf

Chemical and Structural Biology (TMED)

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Abstract

The three-dimensional structures of five mutants of toxic shock syndrome toxin-1 (TSST-1) have been determined. These mutations are in the long central α helix and are useful in mapping portions of TSST-1 involved in superantigenicity and lethality. The T128A, H135A, Q139K, and I140T mutations appear to reduce superantigenicity by altering the properties of the T-cell receptor interaction surface. The Q136A mutation is at a largely buried site and causes a dramatic change in the conformation of the β7-β9 loop which covers the back of the central α helix. As this mutation has the unique ability to reduce the toxin's lethality in rabbits while retaining its superantigenicity, it raises the possibility that this rear loop mediates the ability of TSST-1 to induce lethality and suggests a route for producing nonlethal toxins for therapeutic development.

Original language	English (US)
Pages (from-to)	7194-7202
Number of pages	9
Journal	Biochemistry
Volume	37
Issue number	20
DOIs	https://doi.org/10.1021/bi9721896
State	Published - May 19 1998

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title = "Structures of five mutants of toxic shock syndrome toxin-1 with reduced biological activity",

abstract = "The three-dimensional structures of five mutants of toxic shock syndrome toxin-1 (TSST-1) have been determined. These mutations are in the long central α helix and are useful in mapping portions of TSST-1 involved in superantigenicity and lethality. The T128A, H135A, Q139K, and I140T mutations appear to reduce superantigenicity by altering the properties of the T-cell receptor interaction surface. The Q136A mutation is at a largely buried site and causes a dramatic change in the conformation of the β7-β9 loop which covers the back of the central α helix. As this mutation has the unique ability to reduce the toxin's lethality in rabbits while retaining its superantigenicity, it raises the possibility that this rear loop mediates the ability of TSST-1 to induce lethality and suggests a route for producing nonlethal toxins for therapeutic development.",

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AU - Earhart, Cathleen A.

AU - Mitchell, David T.

AU - Murray, Debra L.

AU - Pinheiro, Denise M.

AU - Matsumura, Masazumi

AU - Schlievert, Patrick M.

AU - Ohlendorf, Douglas H.

PY - 1998/5/19

Y1 - 1998/5/19

N2 - The three-dimensional structures of five mutants of toxic shock syndrome toxin-1 (TSST-1) have been determined. These mutations are in the long central α helix and are useful in mapping portions of TSST-1 involved in superantigenicity and lethality. The T128A, H135A, Q139K, and I140T mutations appear to reduce superantigenicity by altering the properties of the T-cell receptor interaction surface. The Q136A mutation is at a largely buried site and causes a dramatic change in the conformation of the β7-β9 loop which covers the back of the central α helix. As this mutation has the unique ability to reduce the toxin's lethality in rabbits while retaining its superantigenicity, it raises the possibility that this rear loop mediates the ability of TSST-1 to induce lethality and suggests a route for producing nonlethal toxins for therapeutic development.

AB - The three-dimensional structures of five mutants of toxic shock syndrome toxin-1 (TSST-1) have been determined. These mutations are in the long central α helix and are useful in mapping portions of TSST-1 involved in superantigenicity and lethality. The T128A, H135A, Q139K, and I140T mutations appear to reduce superantigenicity by altering the properties of the T-cell receptor interaction surface. The Q136A mutation is at a largely buried site and causes a dramatic change in the conformation of the β7-β9 loop which covers the back of the central α helix. As this mutation has the unique ability to reduce the toxin's lethality in rabbits while retaining its superantigenicity, it raises the possibility that this rear loop mediates the ability of TSST-1 to induce lethality and suggests a route for producing nonlethal toxins for therapeutic development.

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Structures of five mutants of toxic shock syndrome toxin-1 with reduced biological activity

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