Chromosomal assignments of human 27-kDa heat shock protein gene family

Heat shock protein 27 gene: chromosomal and molecular location and relationship to Williams syndrome

Heat shock protein 27 (HSP27) is one of a number of actin-binding proteins that regulate actin polymerization. Three related HSP27 sequences had previously been mapped to chromosomes 3, 9, and X. We have used fluorescent in-situ hybridization (FISH) to correct and refine the map position of the transcribed HSP27 gene (locus HSPB1) to chromosome 7q11.23. This band also contains the site of the deletion associated with Williams syndrome (WS). To define the relationship between HSP27 and the WS deletion, we used two-color FISH on previously G-banded and photographed metaphase chromosomes from WS cell-lines and peripheral blood. Six WS patients with longer deletions that extend telomeric to the classical WS deletion region were analyzed for deletion length using HSP27, cosmids generated from P193O22 (cos11) and B350L10 (cos64 and 82), B350L10, B161A02, and B363M4. The BAC 363M4 was selected from the Washington University database and contains HSP27. Our results indicated that HSP27 was deleted in three patients and that HSP27 is telomeric to cos11, cos64, cos82, and B350L10. B363M4 was demonstrated to overlap the telomeric end of B161A02 and HSP27 may be contained partially within the telomeric end of B161A02. The possible role of HSP27 in the cognitive features of WS is discussed.

The human genome encodes 10 alpha-crystallin-related small heat shock proteins: HspB1-10

To obtain an inventory of all human genes that code for alpha-crystallin-related small heat shock proteins (sHsps), the databases available from the public International Human Genome Sequencing Consortium (IHGSC) and the private Celera human genome project were exhaustively searched. Using the human Hsp27 protein sequence as a query in the protein databases, which are derived from the predicted genes in the human genome, 10 sHsp-like proteins were retrieved, including Hsp27 itself. Repeating the search procedure with all 10 proteins and with a variety of more distantly related animal sHsps, no further human sHsps were detected, as was the case when searches were performed at deoxyribonucleic acid level. The 10 retrieved proteins comprised the 9 earlier recognized human sHsps (Hsp27/HspB1, HspB2, HspB3, alphaA-crystallin/HspB4, alphaB-crystallin/HspB5, Hsp20/HspB6, cvHsp/HspB7, H11/HspB8, and HspB9) and a sperm tail protein known since 1993 as outer dense fiber protein 1 (ODF1). Although this latter protein probably serves a structural role and has a high cysteine content (14%), it clearly contains an alpha-crystallin domain that is characteristic for sHsps. ODF1 can as such be designated as HspB10. The expression of all 10 human sHsp genes was confirmed by expressed sequence tag (EST) searches. For Hsp27/HspB1, 2 retropseudogenes were detected. The HspB1-10 genes are dispersed over 9 chromosomes, reflecting their ancient origin. Two of the genes (HspB3 and HspB9) are intronless, and the others have 1 or 2 introns at various positions. The transcripts of several sHsp genes, notably HspB7, display low levels of alternative splicing, as supported by EST evidence, which may result in minor amounts of isoforms at the protein level.

Heat shock protein (HSP)27: a further refinement in the diagnosis of suspicious fine needle aspirates of breast

The technique of fine needle aspiration (FNA) is increasingly used in the investigation of breast abnormalities both palpable and impalpable. However, up to 20% of aspirates fall into two categories which require further investigation, because they either show cytological atypia or exhibit features which are suspicious of malignancy (reporting categories C3 and C4). The usefulness of the 27-kD heat shock protein (HSP27) expression in refining these categories of suspicion, and possibly in predicting malignancy, was investigated using an established immunocytochemical staining procedure. Positive HSP27 staining was shown by 73.1% of C4 and 33.3% of C3 FNAs. Statistical analysis showed a significant difference between the results obtained for the C3 and C4 FNAs.

Genealogy of the alpha-crystallin--small heat-shock protein superfamily

Sequences of 40 very diverse representatives of the alpha-crystallin-small heat-shock protein (alpha-Hsp) superfamily are compared. Their characteristic C-terminal 'alpha-crystallin domain' of 80-100 residues contains short consensus sequences that are highly conserved from prokaryotes to eukaryotes. There are, in addition, some positions that clearly distinguish animal from non-animal alpha-Hsps. The alpha-crystallin domain is predicted to consist of two hydrophobic beta-sheet motifs, separated by a hydrophilic region which is variable in length. Combination of a conserved alpha-crystallin domain with a variable N-terminal domain and C-terminal extension probably modulates the properties of the various alpha-Hsps as stress-protective and structural oligomeric proteins. Phylogeny reconstruction indicates that multiple alpha-Hsps were already present in the last common ancestor of pro- and eukaryotes. It is suggested that during eukaryote evolution, animal and non-animal alpha-Hsps originated from different ancestral gene copies. Repeated gene duplications gave rise to the multiple alpha-Hsps present in most organisms.

Identification and characterization of the gene encoding a new member of the alpha-crystallin/small hsp family, closely linked to the alphaB-crystallin gene in a head-to-head manner

alphaB-Crystallin is a member of the alpha-crystallin/small heat shock protein (hsp) family and under various neuropathologic conditions accumulates in reactive astrocytes and degenerating neurons. In the 5'-flanking region of the alphaB-crystallin gene on human chromosome 11q22-q23, where a constitutive DNase I hypersensitive site is located, we identified a gene transcribed in the opposite direction. Analysis of its mRNA structure by RT-PCR and 5'/3'RACE revealed that this gene is composed of two exons and encodes a new member of the alpha-crystallin/small hsp family. This gene was designated the HSPB2 gene by the HMGW Nomenclature Committee. The complete genomic structure of the rat homologue was also determined. Northern blot analysis revealed that the HSPB2 gene is expressed preferentially in skeletal muscle and heart but not in the lens, while the neighboring alphaB-crystallin gene is highly expressed in all three tissues. The two related genes are arranged in a head-to-head manner with an intergenic sequence of less than 1 kb, raising a possibility of shared regulatory elements for their expression.

Isolation and characterization of a human heart cDNA encoding a new member of the small heat shock protein family--HSPL27

A novel cDNA clone was isolated from a human adult heart cDNA library. This cDNA clone is similar to the small heat shock protein (smhsp) in both DNA and amino acid sequences, especially in the conserved region. Sequence analysis has shown that the putative novel smhsp, named 27 kDa heat-shock-protein-like protein (HSPL27) is a protein of 241 amino acids with a deduced molecular mass of 26.7 kDa and a deduced pI of 8.0. We have expressed the HSPL27 in E. coli and the expressed protein was found to be present in the soluble fraction of the bacterial cell lysate. Chromosomal mapping data shows that the HSPL27 gene is located at human chromosome 5q11.2.

HSP27 and HSP70 increase the survival of WEHI-S cells exposed to hyperthermia

Exposure of cells to hyperthermia and various other stress conditions induces synthesis of a small group of proteins, the heat shock proteins (HSPs). Synthesis of HSPs correlates with the development of thermotolerance, but little is known about the role of individual HSPs in this phenomenon. Using stably transfected WEHI-S murine fibrosarcoma cells we show that overexpression of either HSP27 or HSP70 clearly protects these cells from the toxic effect of elevated temperatures. Moreover, a clone expressing HSP70 mRNA in antisense orientation, and thereby reduced levels of endogenous HSP70 protein, is more thermosensitive than transfection control cells. Using indirect immunofluorescence we show that following heat treatment exogeneous HSP27 and HSP70 are relocated from the cytoplasm to the nucleus and nucleoli respectively. A similar pattern of localization was seen for the endogenous HSPs. Taken together, these results indicate that both HSP27 and HSP70 protect cells from heat mediated killing.

Expression of the small heat shock protein (hsp) 27 in human astrocytomas correlates with histologic grades and tumor growth fractions

1. Cellular expression and distribution of the stress response small heat shock protein 27 (hsp27) in 39 high-grade astrocytomas (27 glioblastoma multiformes, 12 anaplastic astrocytomas) and in 27 low-grade astrocytomas (grade I-II) were analyzed immunohistochemically. 2. The correlation between hsp27 expression and tumor growth fractions of the astrocytomas was examined following Ki-67 immunostaining. 3. The hsp27 staining was cell cytoplasmic. The hsp27 immunopositive rate was significantly higher in high-grade astrocytomas; the rates was 74% for glioblastomas, 58% for anaplastic astrocytomas, and 37% for low-grade astrocytomas. The small and large tumor cells, especially in glioblastomas, multinucleated tumor giant cells, tumor cells in the pseudopalisading and necrotic areas, cells of the microvascular endothelial proliferations, and tumor vascular smooth muscles were usually hsp27 positive. The mean percentage of hsp27-positive cells was significantly higher in the glioblastomas alone and in the combined high-grade astrocytomas, compared to the low-grade, and in recurrent rather than in primary high-grade astrocytomas. 4. The high-grade astrocytomas had a highly statistical significant Ki-67 labeling index. The Ki-67 labeling indices were significantly higher in the hsp27-positive than the hsp27-negative astrocytomas, irrespective of the histological grade. In the high-grade astrocytomas with a Ki-67 labeling index of five and above, 81% of those tumors were hsp27 positive. 5. Thus, a large number of human astrocytomas express hsp27, and hsp27 expression correlates with histological grades of astrocytoma and with tumor growth fractions. This being the case, hsp27 is likely to have a role in the growth of human astrocytomas.

Constitutive overexpression of the 27,000 dalton heat shock protein in late passage human breast cancer cells

We present evidence that the mechanisms controlling induction of heat shock transcription factors (HSFs) and mRNA expression of the 27,000 molecular weight heat shock protein, hsp27, are diverse in human breast cancer cells. Heat shock accumulation of hsp27 RNA is associated with the activation of HSF in MDA-MB-231 cells. We have later passage MCF-7 breast cancer cell lines with elevated, constitutive expression of hsp27 mRNA, perhaps due to hsp27 gene amplification. Estradiol and heat shock treatment no longer affect the level of hsp27 mRNA in these cells. Heat induction of HSF is inhibited in cells overexpressing hsp27, although metal ions and amino acid analogs are still capable of activating HSF. These cells will provide a useful system for characterizing alternative pathways in HSF inhibition and activation.

Structure and organisation of a murine gene encoding small heat-shock protein Hsp25

The structure and sequence of a gene encoding the mouse small heat-shock protein, Hsp25, is presented and compared to the human hsp27. In contrast to the human hsp27, only two copies of hsp25 could be detected in the mouse genome. The intron-exon structure of the identified hsp25 is similar to the transcribed human hsp27, and the transcription start points of the genes are located at similar sites. The promoter region contains various putative transcription factor-binding elements including two G + C-rich Sp1-binding domains, two heat-shock elements, and an estrogen-responsive element half-site in direct proximity to the TATA box. These elements could explain hsp25 basal expression as well as its induction as a result of heat-shock and estrogen treatment.

Emerging role of heat shock proteins in biology and medicine

All cells, procaryotic and eucaryotic, respond to an elevation in temperature by increasing the synthesis of a family of proteins collectively known as heat shock proteins (HSPs). HSPs are among the most highly conserved and abundant proteins in nature. Studies on the regulation of the synthesis of HSPs have for several years shed light on the mechanisms regulating gene expression. The results from recent years, showing that HSPs play crucial roles in a wide variety of normal cellular processes, has made them an object of even broader interest, first to molecular and cellular biologists and later to specialists in various fields of medicine including oncology, immunology, infectious disease, autoimmunity, embryology, neurology and endocrinology. The aim of this review is to briefly summarize our present knowledge of the regulation of the heat shock response and the structure of the relevant gene products, HSPs. Moreover, some of the exciting associations between HSPs and various fields of medicine will be discussed.

pS2 expression in primary breast carcinomas: relationship to clinical and histological features and survival

pS2 protein expression has been reported to have prognostic significance in human breast carcinomas and to correlate with estrogen receptor positivity, although these findings have not been confirmed by all investigators. pS2 positivity was compared to various clinical and histologic parameters in a retrospective study of 290 patients (median follow-up 7.2 years) and significantly correlated with tumor grade and estrogen receptor content (p = 0.001 and p = 0.0007, respectively). Significant associations between pS2 positivity and lymph node metastases, T stage, histologic tumor type, and patient age were not observed. Univariate and multivariate analyses (controlling for estrogen receptor content, T and N stage) of the patient population at large showed that pS2 positivity was not predictive of disease-free or overall survival. Univariate analysis of lymph node negative patients demonstrated that both pS2 and estrogen receptor positivity were significantly associated with a better outcome. Multivariate analysis of these patients, however, showed that only estrogen receptor data had independent prognostic significance. This study suggests that immunohistochemical analysis for pS2 protein expression will not contribute additional prognostic information if the estrogen receptor content is known.

Mapping of the gene family for human heat-shock protein 90 alpha to chromosomes 1, 4, 11, and 14

The HSP90 family of heat-shock proteins (encoded by genes for HSP90 alpha and beta) constitutes one of the major groups of proteins that are synthesized at increased rates in response to heat and other forms of stress. We previously isolated two distinct cDNA clones for HSP90 alpha from human peripheral blood lymphocytes and from HeLa cells transfected with the adenovirus E1A gene, respectively. To determine the organization of this complex multigene family in the human genome, we used three complementary approaches: Southern analysis of a panel of human/hamster somatic cell hybrids, molecular cloning of the cosmid HSP90 alpha clones from libraries prepared with DNAs from human lymphoblastoid cells, and in situ hybridization to human chromosomes. We demonstrate here that nucleotide sequences that encode HSP90 alpha map to human chromosomes 1q21.2-q22, 4q35, 11p14.1-p14.2, and 14q32.3. The chromosomal mapping of the loci, HSPCAL1, HSPCAL2, HSPCAL3, HSPCAL4, and the characterization of the respective genes should facilitate clarification of the organization of this gene family and lead to a better understanding of the biological functions of the gene product.