学术探索
学术期刊
新闻热点
数据分析
智能评审

The RNase a superfamily: Generation of diversity and innate host defense

被引:114
作者
Dyer, Kimberly D. [1 ]
Rosenberg, Helene F. [1 ]
机构
[1] NIAID, Lab Allerg Dis, NIH, Bethesda, MD 20892 USA
来源
MOLECULAR DIVERSITY | 2006年 / 10卷 / 04期
关键词
angiogenin; antibacterial; antiviral; antihelminth; cytotoxin; eosinophils;
D O I
10.1007/s11030-006-9028-2
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The Ribonuclease A superfamily includes an extensive network of distinct and divergent gene lineages. Although all ribonucleases of this superfamily share invariant structural and catalytic elements and some degree of enzymatic activity, the primary sequences have diverged significantly, ostensibly to promote novel function. We will review the literature on the evolution and biology of the RNase A ribonuclease lineages that have been characterized specifically as involved in host defense including: (1) RNases 2 and RNases 3, also known as the eosinophil ribonucleases, which are rapidly-evolving cationic proteins released from eosinophilic leukocytes, (2) RNase 7, an anti-pathogen ribonuclease identified in human skin, and (3) RNase 5, also known as angiogenin, another rapidly-evolving ribonuclease known to promote blood vessel growth with recently-discovered antibacterial activity. Interestingly, some of the characterized anti-pathogen activities do not depend on ribonuclease activity per se. We discuss the ways in which the anti-pathogen activities characterized in vitro might translate into experimental confirmation in vivo.
引用
收藏
页码:585 / 597
页数:13
相关论文
共 151 条
[31]   ISOLATION AND CHARACTERIZATION OF ANGIOGENIN, AN ANGIOGENIC PROTEIN FROM HUMAN CARCINOMA-CELLS [J].
FETT, JW ;
STRYDOM, DJ ;
LOBB, RR ;
ALDERMAN, EM ;
BETHUNE, JL ;
RIORDAN, JF ;
VALLEE, BL .
BIOCHEMISTRY, 1985, 24 (20) :5480-5486
[32]   EOSINOPHIL DEGRANULATION IN THE RESPIRATORY-TRACT DURING NATURALLY ACQUIRED RESPIRATORY SYNCYTIAL VIRUS-INFECTION [J].
GAROFALO, R ;
KIMPEN, JLL ;
WELLIVER, RC ;
OGRA, PL .
JOURNAL OF PEDIATRICS, 1992, 120 (01) :28-32
[33]   Inflammatory responses to pneumovirus infection in IFN-αBR gene-deleted mice [J].
Garvey, TL ;
Dyer, KD ;
Ellis, JA ;
Bonville, CA ;
Foster, B ;
Prussin, C ;
Easton, AJ ;
Domachowske, JB ;
Rosenberg, HF .
JOURNAL OF IMMUNOLOGY, 2005, 175 (07) :4735-4744
[34]   BIOCHEMICAL AND FUNCTIONAL SIMILARITIES BETWEEN HUMAN EOSINOPHIL-DERIVED NEUROTOXIN AND EOSINOPHIL CATIONIC PROTEIN - HOMOLOGY WITH RIBONUCLEASE [J].
GLEICH, GJ ;
LOEGERING, DA ;
BELL, MP ;
CHECKEL, JL ;
ACKERMAN, SJ ;
MCKEAN, DJ .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1986, 83 (10) :3146-3150
[35]   THE CYTOTOXIC EOSINOPHIL CATIONIC PROTEIN (ECP) HAS RIBONUCLEASE-ACTIVITY [J].
GULLBERG, U ;
WIDEGREN, B ;
ARNASON, U ;
EGESTEN, A ;
OLSSON, I .
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1986, 139 (03) :1239-1242
[36]   DUAL SITE MODEL FOR THE ORGANOGENIC ACTIVITY OF ANGIOGENIN [J].
HALLAHAN, TW ;
SHAPIRO, R ;
VALLEE, BL .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1991, 88 (06) :2222-2226
[37]   COMPARATIVE TOXICITY OF PURIFIED HUMAN EOSINOPHIL GRANULE PROTEINS FOR NEWBORN LARVAE OF TRICHINELLA-SPIRALIS [J].
HAMANN, KJ ;
BARKER, RL ;
LOEGERING, DA ;
GLEICH, GJ .
JOURNAL OF PARASITOLOGY, 1987, 73 (03) :523-529
[38]  
HAMANN KJ, 1990, J IMMUNOL, V144, P3166
[39]   SEQUENCE OF HUMAN EOSINOPHIL-DERIVED NEUROTOXIN CDNA - IDENTITY OF DEDUCED AMINO-ACID SEQUENCE WITH HUMAN NONSECRETORY RIBONUCLEASES [J].
HAMANN, KJ ;
BARKER, RL ;
LOEGERING, DA ;
PEASE, LR ;
GLEICH, GJ .
GENE, 1989, 83 (01) :161-167
[40]   PATHWAYS OF FOLDING OF REDUCED BOVINE PANCREATIC RIBONUCLEASE [J].
HANTGAN, RR ;
HAMMES, GG ;
SCHERAGA, HA .
BIOCHEMISTRY, 1974, 13 (17) :3421-3431
12345678910