Naoshi Ishikawa

Regulation of cellular functions by nucleoside diphosphate kinases in mammals.

The role of nucleoside diphosphate (NDP) kinases in cell growth, differentiation, and tumormetastasis in relation to signal transduction was investigated. The essential role of NDP kinasein cell growth was validated by coupling between reduced NDP kinase levels, induced byantisense oligonucleotides, and the suppression of proliferative activity of a cultured cell line.In addition, because NDP kinase levels are often enhanced with development and differentiation,as has been demonstrated in postmitotic cells and tissues, such as the heart and brain, wefurther examined this possibility using the bone tissue (osteoblasts) and a cultured cell linePC12D. The enhanced NDP kinase accumulation was demonstrated in the matured osteoblastsin vivo and in vitro by immunohistochemistry. In PC12D cells neurite outgrowth took placein NDP kinase β-transfected clones without differentiation inducers, which was accompaniedby prolongation of doubling time. Neurite outgrowth, triggered by nerve growth factor and acyclic AMP analog, was down-regulated upon forced expression of inactive mutant NDPkinase by virtue of a dominant negative effect. NDP kinase α-transfected rat mammaryadenocarcinoma cells (MTLn3) and nm23-H2-transfected human oral squamous cell carcinomacells (LMF4) manifested reduced metastatic potential and were associated with an alteredsensitivity to environmental factors, such as motility and growth factors. NDP kinase α,compared to NDP kinase β, was involved in a wide variety of the cellular phenomena examined.Taken together, NDP kinase isoforms appear to elicit both their own respective and commoneffects. They may have an ability to lead cells to both proliferative and differentiated statesby modulating responsiveness to environmental factors, but their fate seems to depend on theirsurrounding milieu.

Changes of telomere length with aging.

We reviewed our methodology and results of telomere measurements, with reference to telomere length and aging. Human tissues always showed telomere shortening with age, except for the brain and myocardium. Yearly rates of telomere length reduction in various tissues were mostly within the range 20–60 bp, and thus compatible with that expected from only one round of mitosis. It was suggested that when telomeres were found to be longer in any specific organ in a given individual, then the other organs in that individual would also have longer telomeres. Using the quantitative fluorescence in situ hybridization (Q‐FISH) method for telomere measurement, we were able to measure the telomere lengths of various cell types within tissues. Here we summarize the results obtained for various cell types in the stomach, tongue and breast. Our Q‐FISH method using our original software program “Tissue Telo” is excellent for measuring telomere lengths using tissue sections and PNA probes. Geriatr Gerontol Int 2010; 10 (Suppl. 1): S197–S206.

Decreased expression of nucleoside diphosphate kinase α isoform, an nm23-H2 gene homolog, is associated with metastatic potential of rat mammary-adenocarcinoma cells

The nm23 gene [encoding nucleoside diphosphate kinase (NDPK)] may act as a metastasis suppressor in certain tumor cells. We investigated the role of NDPK isoforms (α and β) in the metastatic processes, using rat mammary‐adenocarcinoma cell lines of poor (MTC) and high (MTLn3) spontaneous metastatic potential respectively. In these cell lines, as in most rat tissues, the α isoform (nm23‐H2 homolog) was more highly expressed than the β isoform (nm23‐H1 homolog) at the mRNA and protein levels. When examined by Northern‐ and Western‐blot analyses, expression of the 2 isoforms was reduced in highly metastatic MTLn3 cells compared with poorly metastatic MTC cells. The reduced expression was also associated with diminished NDPK‐enzyme activity in the cell extracts. Southern‐blot and RT‐PCR‐SSCP analyses suggested that the 2 genes were not grossly altered or mutated in their translation regions. MTLn3 cell clones transfected with NDPKα or NDPKβ cDNA were all tumorigenic when implanted into the mammary fat pad of syngeneic rats. Among those, only clones transfected with the NDPKα gene exhibited reduced lung metastasis in a spontaneous metastasis assay.

The teleost Oryzias latipes shows telomere shortening with age despite considerable telomerase activity throughout life.

Previous studies of telomeres and telomerase have focused mostly on mammals, and data for other vertebrates are limited. We analyzed both telomere length (terminal restriction fragment length) and telomerase activity in a small freshwater teleost fish, the medaka (Oryzias latipes), and found that the telomeres shorten during ageing despite the fact that a considerable amount of telomerase activity is ubiquitously detectable throughout the life of the fish. Since the telomere attrition rate during development was greater than that in adulthood, telomere length is inversely correlated with the increase in body length. The difference in telomere length among medaka individuals was similar to that in humans, and the individual specific differences were evident even at the earliest embryonic stage. Telomerase activity was ubiquitously detectable not only in the body of the embryo but also in the systemic organs of mature individuals throughout their entire life span. These data suggest that telomere attrition during ageing in medaka, which is similar to that in humans, may be a major factor determining their mortality, and that telomere maintenance through strong telomerase activity may be required for the characteristic lifelong continuous growth of this fish.

Telomeric DNA length in cerebral gray and white matter is associated with longevity in individuals aged 70 years or older

Many studies have demonstrated the association between telomere length in mitotic cells and carcinogenesis and mortality, but little attention has been focused on post-mitotic cells and human life expectancy. We assessed the relationship between telomere length in cerebral gray and white matter and longevity in 72 autopsied Japanese patients aged 0-100 years using Southern blot hybridization. The mean telomere lengths in the gray and white matter were 12.3+/-2.5 kilobase pairs and 11.4+/-2.1 kilobase pairs, respectively. The mean telomere lengths in 60-69 year decadal group were less than those of neonates, and declined further in the 70-79-year age group, but those in groups of further advanced age were longer than in the 70-79 year group (70-79<80-89<90-100 years of age). Thus, the 90-100-year age group possessed significantly longer telomeres than the 70s (p=0.029). Autopsy protocols showed a decrease in the rate of cancer death in individuals in their 80s (p=0.041) and 90s (p=0.017) versus those in their 60s, and in their 80s the mean telomere length in the gray matter from cancer death patients was significantly shorter than that of patients who died of other diseases (p=0.04). These data suggest that innate telomere lengths are maintained very well in the cerebrum, and are associated with longevity. Our study lends indispensable support to the hypothesis that longer telomeres protect the genome from instability (a major cause of carcinogenesis) and are beneficial for longevity.

Nucleoside diphosphate kinases in mammalian signal transduction systems: recent development and perspective.

The role of nucleoside diphosphate (NDP) kinase with special reference to mammalian signal transduction systems was described. The interaction between NDP kinases and G proteins was reevaluated in view of their protein structural information and its significance was extended further on the basis of recent findings obtained with small molecular weight G proteins such as Rad, menin, and Rac. Meanwhile, observations suggesting involvement of NDP kinases in the regulation of cell growth and differentiation led to the realization that NDP kinases may play a crucial role in receptor tyrosine kinase signal transduction systems. In fact, a number of experimental results, particularly obtained with PC12 cells, implicate that NDP kinases appear to regulate differentiation marker proteins and cell-cycle-associated proteins cooperatively. Consequently, we propose a hypothesis that NDP kinases might act like a molecular switch to determine the cell fate toward proliferation or differentiation in response to environmental signals.

Telomere lengths in the oral epithelia with and without carcinoma

Aging appears to be intrinsically related to carcinogenesis. Genomic instability due to telomere shortening plays an important role in carcinoma development. In order to clarify telomere dysfunction in carcinoma development, we examined the uninvolved epithelium adjacent to carcinoma in situ (CIS), i.e. background of CIS, and CIS itself, compared to control without carcinoma, using an improved quantitative fluorescence in situ hybridization (Q-FISH) method. We also estimated anaphase bridge (AB), which is inferred to be related to chromosomal instability. In all cell types (basal, parabasal, and suprabasal), mean telomere lengths were significantly shorter in the background than in the control. We also demonstrated increased incidences of AB, not only in CIS, but also in the background and control epithelia with excessively shortened telomeres. Thus we have conclusively demonstrated that CIS arises from epithelium with short telomeres.

Basal cells have longest telomeres measured by tissue Q-FISH method in lingual epithelium

We investigated the telomere lengths of individual cell types in lingual mucosa using an improved tissue quantitative fluorescence in situ hybridization (Q-FISH) method. Our tissue Q-FISH method compensates for partially cut nuclei in a tissue section by using the telomere:centromere ratio (TCR). We normalized our TCR measurements (NTCR) using a section from a block of cultured cells placed on the same slide, thus improving the accuracy and reproducibility of the results. Normal lingual mucosa was obtained from 21 autopsied individuals. Immunohistochemistry showed positivity mainly for p27, p63, and CK19 in basal cells, and for Ki-67 in parabasal cells. Q-FISH revealed that NTCR was significantly highest in basal cells and lowest in prickle cells, and also that telomere length regressed at a certain rate in each cell type, firstly. Significant correlations of NTCR among the three epithelial cell types were demonstrated. The present findings appear to support the theory that stem cells exist in the basal layer of the lingual epithelium. The reduction of telomere length with age and in each cell layer is consistent with the telomere biology theory of cell proliferation and differentiation in oral mucosa.

Q-FISH analysis of telomere and chromosome instability in the oesophagus with and without squamous cell carcinoma in situ.

Chromosomal and genomic instability due to telomere dysfunction is known to play an important role in carcinogenesis. To study telomere dysfunction in the surrounding background epithelium of squamous cell carcinoma in situ (CIS) of the oesophagus, we measured telomere lengths of basal and parabasal cells of epithelia with and without CIS using quantitative fluorescence in situ hybridization (Q‐FISH) and our original software, Tissue Telo. Additionally, we assessed histological inflammation and the anaphase bridge index. In non‐cancerous epithelium, telomeres in basal cells were significantly longer than those in parabasal cells, whereas CIS showed a homogeneous telomere pattern in the basal and parabasal cells. Telomeres in basal and parabasal cells were significantly shorter in the background with CIS than in epithelium from age‐matched normal controls. Significant negative correlation was observed between the normalized telomere : centromere ratio (reflected telomere length) and the anaphase bridge index in non‐cancerous epithelia from both normal controls and the CIS background with no histological inflammation. These findings indicate that tissue stem cells may be located among basal cells, and that telomere length distribution in component cell types differs between CIS and non‐cancerous epithelium. We have demonstrated conclusively that oesophageal CIS arises from epithelium with short telomeres and chromosomal instability in the absence of histological inflammation. Copyright

Increased expression of nucleoside diphosphate kinases/nm23 in human diploid fibroblasts transformed by SV40 large T antigen or 60Co irradiation.

When the expression levels of nucleoside diphosphate (NDP) kinase/nm23 were examined in four human normal diploid fibroblast cell lines in comparison with their corresponding immortalized cells transformed by SV40 large T antigen or 60Co irradiation, mRNA levels of the two isoforms (NDP kinase A/nm23‐H1, NDP kinase B/nm23‐H2) were increased in the immortalized cell lines. The increase was found to be associated with increased translation products. Furthermore, the cell extracts prepared from these immortalized cell lines demonstrated slightly higher enzyme activity than those from their normal counterparts. Neither the growth state nor the in vitro aging largely affected their expression in a normal cell line (TIG‐3) examined. The results suggest possible involvement of NDP kinases/nm23 in acquiring an infinite growth property of these cells.