Go for it! Exercising makes you happy and strong

Despite it is generally recognized the beneficial role of physical activity, large portion of the population is physically inactive. Very alarmingly, the well-known gender gap in physical activity is constantly increasing. Several barriers obstacle women to perform physical activity although exercising would be of paramount importance for their health in particular during pregnancy and menopause. In addition to physical health benefits, physical activity may influence well-being and resilience, greatly impacting on quality of life.

Here we explore the relationship between physical activity resilience and well-being in a group of 1107 female residents in the Metropolitan area of Naples.

The Frailty of the Invincible

The COVID-19 pandemic has unveiled the frailty of our societies from too many points of view to look away. We need to understand why we were all caught unprepared. On the one hand, we have all short memories. As we forget too quickly, we were unable to recognize key factors influencing response and preparedness to public health threats. For many years, economic evaluation pushed governments all over the world to cut resources for public health systems, with COVID-19 pandemic the question arises: do we spend too much or too little on health care? What is the right amount to spend on health? Moreover, in many countries, the privatisation, or semi-privatisation, of healthcare may give rise to inequitable access to health care for everyone. Although COVID-19 is very “democratic”, its consequences aren’t. According to OECD, income inequality in OECD countries is at its highest level for the past half century. Three main causes have been recognized, technological revolution, globalization, and “financialisation”.

In this scenario, lockdown measures adopted to save lives are showing dramatic economic consequences. To address post COVID-19 reconstruction we need to go beyond GDP. As an economic measure this has many shortcomings in describing the real well-being of a country, and since what we measure affects what we do, new paradigms will have to guide the post COVID-19 reconstruction strategies, as the fate of countries and their citizens is at stake.

The Frailty of the Invincible

The COVID-19 pandemic has unveiled the frailty of our societies from too many points of view to look away. We need to understand why we were all caught unprepared. On the one hand, we have all short memories. As we forget too quickly, we were unable to recognize key factors influencing response and preparedness to public health threats. For many years, economic evaluation pushed governments all over the world to cut resources for public health systems, with COVID-19 pandemic the question arises: do we spend too much or too little on health care? What is the right amount to spend on health? Moreover, in many countries, the privatisation, or semi-privatisation, of healthcare may give rise to inequitable access to health care for everyone. Although COVID-19 is very "democratic", its consequences aren't. According to OECD, income inequality in OECD countries is at its highest level for the past half century. Three main causes have been recognized, technological revolution, globalization, and "financialisation". In this scenario, lockdown measures adopted to save lives are showing dramatic economic consequences. To address post COVID-19 reconstruction we need to go beyond GDP. As an economic measure this has many shortcomings in describing the real well-being of a country, and since what we measure affects what we do, new paradigms will have to guide the post COVID-19 reconstruction strategies, as the fate of countries and their citizens is at stake.

Health tourism: an opportunity for sustainable development

In February 2017, the "Programma Mattone Internazionale Salute" (ProMis), that is the Italian Program for Internationalization of Regional Health Systems of the Ministry of Health (MoH), presented the first version of its Position Paper on Health Tourism, which embeds a first shared approach to the recommendations expressed by the European Committee of Regions (CoR) on "Age-Friendly" tourism. The CoR stresses the importance of local and regional authorities in the coordination of multi-sectoral policies such as healthcare, social assistance, transport, urban planning and rural development in relation to the promotion of mobility, security, accessibility of services, including health care and social services. "Age-friendly" tourism is an example of an innovative tourist offer that strives to meet the health needs of the entire "traveling" population, with an integrated and cross-sector approach that involves various organizations operating in sectors such as healthcare, accessibility and transport. The aim of the workshop was to explore the interest of the stakeholders to participate in a systemic action in the field of "health" tourism, and to identify priority implementation areas that offer opportunities to take advantage of validated, innovative experiences that strengthen the accessibility to health and social services in regional, national and international contexts. This effort provides the opportunity to take advantage of aligning the European Structural and Investment Funds (ESIF) to the development of tourism, coherently with the needs and resources of local and regional health authorities.

Building Bridges for Innovation in Ageing: Synergies between Action Groups of the EIP on AHA

The Strategic Implementation Plan of the European Innovation Partnership on Active and Healthy Ageing (EIP on AHA) proposed six Action Groups. After almost three years of activity, many achievements have been obtained through commitments or collaborative work of the Action Groups. However, they have often worked in silos and, consequently, synergies between Action Groups have been proposed to strengthen the triple win of the EIP on AHA. The paper presents the methodology and current status of the Task Force on EIP on AHA synergies. Synergies are in line with the Action Groups' new Renovated Action Plan (2016-2018) to ensure that their future objectives are coherent and fully connected. The outcomes and impact of synergies are using the Monitoring and Assessment Framework for the EIP on AHA (MAFEIP). Eight proposals for synergies have been approved by the Task Force: Five cross-cutting synergies which can be used for all current and future synergies as they consider overarching domains (appropriate polypharmacy, citizen empowerment, teaching and coaching on AHA, deployment of synergies to EU regions, Responsible Research and Innovation), and three cross-cutting synergies focussing on current Action Group activities (falls, frailty, integrated care and chronic respiratory diseases).

Effects of Resveratrol on p66Shc phosphorylation in cultured prostate cells

There is increasing evidence that diet plays a crucial role in age-related diseases and cancer. Oxidative stress is a conceivable link between diet and diseases, thus food antioxidants, counteracting the damage caused by oxidation, are potential tools for fight age-related diseases and cancer. Resveratrol (RSV), a polyphenolic antioxidant from grapes, has gained enormous attention particularly because of its ability to induce growth arrest and apoptosis in cancer cells, and it has been proposed as both chemopreventive and therapeutic agent for cancer and other diseases. Even though the effects of RSV have been studied in prostate cancer cells and animal models, little is known about its effects on normal cells and tissues. To address this issue, we have investigated the effects of RSV on EPN cells, a human non-transformed prostate cell line, focusing on the relationship between RSV and p66Shc, a redox enzyme whose activities strikingly intersect those of RSV. p66Shc activity is regulated by phosphorylation of serine 36 (Ser36) and has been related to mitochondrial oxidative stress, apoptosis induction, regulation of cell proliferation and migration. Here we show that RSV inhibits adhesion, proliferation and migration of EPN cells, and that these effects are associated to induction of dose- and time-dependent p66Shc-Ser36 phosphorylation and ERK1/2 de-phosphorylation. Moreover, we found that RSV is able to activate also p52Shc, another member of the Shc protein family. These data show that RSV affects non-transformed prostate epithelial cells and suggest that Shc proteins may be key contributors of RSV effects on prostate cells.

Detection of high-mobility group proteins A1 and A2 represents a valid diagnostic marker in post-pubertal testicular germ cell tumours

The high-mobility group A (HMGA) non-histone chromosomal proteins HMGA1 and HMGA2 are architectural factors. They are abundantly expressed during embryogenesis and in most malignant neoplasias, whereas their expression is low or absent in normal adult tissues. Their over-expression is known to have a causal role in cellular neoplastic transformation. Previous studies from our group have shown that their expression is restricted to specific germinal cells. In this study we have evaluated, by immunohistochemistry, the expression of HMGA1 and HMGA2 in a series of post-pubertal testicular tumours of different histological types, including 30 seminomas, 15 teratomas, 15 embryonal carcinomas and 10 mixed germinal tumours with a prominent yolk sac tumour component. HMGA1 protein expression was detected in all seminomas and embryonal carcinomas analysed, but not in teratomas or yolk sac carcinomas. Conversely, HMGA2 was present only in embryonal carcinomas and yolk sac carcinomas, but not in seminomas or teratomas. The immunohistochemical data were further confirmed by Western blot and, at the mRNA level, by RT-PCR analyses. These findings indicate that HMGA1 and HMGA2 are differently expressed with respect to the state of differentiation of testicular germ cell tumours (TGCTs), with over-expression of both proteins in pluripotential embryonal carcinoma cells and loss of expression of HMGA1 in yolk sac tumours and of both proteins in the mature adult tissue of teratoma areas. Therefore, the different profiles of HMGA1 and HMGA2 protein expression could represent a valuable diagnostic tool in some cases in which the histological differential diagnosis is problematic.

cAMP induced modifications of HOX D gene expression in prostate cells allow the identification of a chromosomal area involved in vivo with neuroendocrine differentiation of human advanced prostate cancers

The acquisition of epithelial-neuroendocrine differentiation (ND) is a peculiarity of human advanced, androgen-independent, prostate cancers. The HOX genes are a network of transcription factors controlling embryonal development and playing an important role in crucial adult eukaryotic cell functions. The molecular organization of this 39-gene network is unique in the genome and probably acts by regulating phenotype cell identity. The expression patterns of the HOX gene network in human prostate cell phenotypes, representing different stages of prostate physiology and prostate cancer progression, make it possible to discriminate between different human prostate cell lines and to identify loci and paralogous groups harboring the HOX genes mostly involved in prostate organogenesis and cancerogenesis. Exposure of prostate epithelial phenotypes to cAMP alters the expression of lumbo-sacral HOX D genes located on the chromosomal region 2q31-33 where the cAMP effector genes CREB1, CREB2, and cAMP-GEFII are present. Interestingly, this same chromosomal area harbors: (i) a global cis-regulatory DNA control region able to coordinate the expression of HOX D and contiguous phylogenetically unrelated genes; (ii) a prostate specific ncRNA gene associated with high-risk prostate cancer (PCGEM1); (iii) a series of neurogenic-related genes involved with epithelial-neuronal cell conversion. We report the expression of neurexin 1, Neuro D1, dlx1, and dlx2 in untreated and cAMP treated epithelial prostate cells. The in vivo expression of Neuro D1 in human advanced prostate cancers correlate with the state of tumor differentiation as measured by Gleason score. Thus, we suggest that the chromosomal area 2q 31-33 might be involved in the epithelial-ND characteristic of human advanced prostate cancers.

Aurora B expression in normal testis and seminomas

Aurora/Ipl1-related kinases are a conserved family of proteins that have multiple functions during mitotic progression. High levels of Aurora kinases are characteristic of rapidly dividing cells and tumours. Aurora B encodes a protein that associates with condensing chromatin, concentrates at centromeres, and then relocates onto the central spindle at anaphase. In this study the expression and the localisation of Aurora B throughout germinal epithelial progression in normal testis and its neoplastic counterpart were analysed. Immunocytochemistry and RT-PCR analysis of mouse germinal epithelium cells showed the presence of Aurora B in spermatogonia and occasionally in spermatocytes. Western blot analysis revealed the typical Aurora B isoform ( approximately 41 kDa) in the same cellular types. A similar distribution was observed in human testis by immunohistochemistry. Moreover, the distribution and the expression of Aurora B were investigated in neoplasms derived from germ cells. Surgical samples of seminomas were analysed, and a high percentage of Aurora B positive cells (51%) was detected; the expression of Aurora B was significantly related to the MIB-1 proliferation marker (R=0.816). The data presented here demonstrate that Aurora B expression occurs in spermatogonial division. Furthermore, our results indicate that the expression of Aurora B is a consistent feature of human seminomas.

RET/PTC1 oncogene signaling in PC Cl 3 thyroid cells requires the small GTP-binding protein Rho

Thyroid papillary carcinomas are characterized by RET/PTC rearrangements that cause the tyrosine kinase domain of the RET receptor to fuse with N-terminal sequences encoded by heterologous genes. This results in the aberrant expression of a ligand-independent and constitutively active RET kinase. We analysed actin reorganization induced by the RET/PTC1 oncogene in PC Cl 3 rat thyroid epithelial cells. Differently from oncogenes Src, Ras and Raf, RET/PTC1 caused actin filaments to form prominent stress fibers. Moreover, stress fibers were identified in human thyroid papillary carcinoma cell lines harboring RET/PTC1 rearrangements but not in thyroid carcinoma cells negative for RET/PTC rearrangements. RET/MEN 2A, a constitutively active but unrearranged membrane-bound RET oncoprotein, did not induce stress fibers in PC Cl 3 cells. Induction of stress fibers by RET/PTC1 was restricted to thyroid cells; it did not occur in NIH3T3 fibroblasts or MCF7 mammary cells. RET/PTC1-mediated stress fiber formation depended on Rho but not Rac small GTPase activity. In addition, inhibition of Rho, but not of Rac, caused apoptosis of RET/PTC1-expressing thyroid cells. We conclude that Rho is implicated in the actin reorganization and cell survival mediated by the chimeric RET/PTC1 oncogene in thyroid epithelial cells, both phenotypes being cell type- and oncogene type-specific.

Expression of the apoptosis inhibitor survivin in aggressive squamous cell carcinoma

Deregulated expression of inhibitors of apoptosis (programmed cell death) may contribute to cancer by aberrantly extending cell viability and facilitating the insurgence of resistance to therapy. In this study, we investigated the potential expression and prognostic significance of the apoptosis inhibitor survivin in squamous cell carcinoma (SCC). A series of 135 cases of SCC including 46 oral SCC and 89 cutaneous SCC was analyzed for survivin expression by immunohistochemistry and Western blotting. Survivin was found in 57 cases (64%) of skin SCC and 26 cases (56%) of oral SCC, with weighted survivin scores ranging from 1 to 12. In contrast, normal oral epithelium, normal skin epithelium, and skin annexa did not express survivin. Survivin expression significantly (P < 0.05) segregated with high-grade and undifferentiated tumors with size >1.5 cm and invariably associated with lymph node metastasis. These data suggest that survivin expression may predictively identify cases of SCC with more aggressive and invasive clinical phenotype, potentially warranting closer follow-up protocols.

Variations of proline-rich kinase Pyk2 expression correlate with prostate cancer progression

Proline-rich kinase 2 (Pyk2), also known as CAKbeta (cell adhesion kinase beta), is a cytoplasmic tyrosine kinase that is structurally related to focal adhesion kinase. Pyk2 is expressed in different cell types including brain cells, fibroblasts, platelets, and other hemopoietic cells. Pyk2 is rapidly tyrosine phosphorylated in response to diverse extracellular signals acting via different post receptor pathways. We have investigated whether this protein kinase is functionally expressed in normal and neoplastic prostate tissues. In this study, we demonstrate that Pyk2 is expressed only in normal epithelial prostate tissue and in benign prostatic hyperplasia, whereas its expression progressively declines with an increasing grade of malignancy of prostate cancer.

Estradiol-induced mitogen-activated protein kinase (extracellular signal-regulated kinase 1 and 2) activity in the frog (Rana esculenta) testis

Several lines of evidence support a key role of estradiol-17beta (E(2)) in male fertility. We have used a non-mammalian vertebrate model, the frog Rana esculenta, to investigate the regulation of extracellular signal-regulated kinase 1 and 2 (ERK1/2) activity in the testis during the annual sexual cycle and to study whether E(2 )exerts a role in spermatogenesis through the regulation of ERK1/2 activity. ERK1/2 proteins are present in the cytoplasm and nucleus of the primary and secondary spermatogonia (SPG), and in the nucleus of primary spermatocytes. The annual E(2) profile shows a progressive increase during active spermatogenesis with a peak in the month of June. In parallel, ERK1/2 are highly phosphorylated during the period of active spermatogenesis (from April to July) compared with the regressive period (September/October) and winter stasis (from November to March). E(2) treatment induces the proliferation of primary SPG, possibly via the activation of ERK1/2, and this effect is counteracted by the anti-estrogen ICI 182-780.

Association between the expression of E1A oncogene and increased sensitivity to growth inhibition induced by sustained levels of cAMP in rat thyroid cells

OBJECTIVE

The aim of this study was to investigate: (i) whether a persistent increase of cAMP interferes with the proliferation of transformed thyroid cells, and (ii) whether the degree of malignancy is correlated with the sensitivity to a transient and/or sustained increase in intracellular cAMP levels.

DESIGN AND METHODS

To address these questions we used thyroid cell lines transformed with E1A oncogene from adenoviruses 5 (PC E1A cell line) or 2 (PC HE4 cell line), or infected with the polyoma murine leukemia virus (PC PyMLV cell line) carrying the middle T gene of the polyoma virus, or, finally, expressing both E1A and PyMLV. These cell lines present various degrees of malignancy: PC EIA and PC HE4 cells are not tumorigenic; PC PyMLV cells induce non-invasive tumors after a long latency period; and PC EIA+PyMLV cells are highly tumorigenic.

RESULTS AND CONCLUSIONS

Thyroid cell proliferation required the transient increase of intracellular cAMP levels, while persistent elevation of cAMP blocked the proliferation of normal thyroid PC Cl 3 cells and of PC Cl 3 cells transformed by a variety of different oncogenes. In addition, sustained levels of cAMP induced apoptosis in cells carrying the adenovirus EIA oncogene, but not in cells transformed with other oncogenes or in the wild-type PC Cl 3 cells. Furthermore, middle T gene of the polyoma virus seemed to afford protection only from apoptosis induced by cAMP when middle T is present in thyroid cells along with the E1A gene.

Hypericin photosensitization of tumor and metastatic cell lines of human prostate

We have investigated the photoactivating effect of hypericin on two cancer cell lines: PC-3, a prostatic adenocarcinoma non-responsive to androgen therapy and LNCaP, a lymphonodal metastasis of prostate carcinoma responsive to androgen therapy. The two cell lines are incubated for 24 h with hypericin at concentrations ranging from 0.001 to 0.3 microg/ml in cell culture medium. The cells are irradiated at 599 nm (fluence = 11 J/cm2) using a dye laser pumped by an argon laser. Hypericin exerts phototoxic effects on both cell lines, while it does not produce toxic effects in the absence of irradiation. These results suggest that photodynamic therapy (PDT) with hypericin could be an alternative approach to the treatment of prostatic tumors, and could be beneficial in tumors that are non-responsive to androgen therapy.

C-Jun phosphorylation (Ser-63) in the testis of the lizard, Podarcis s. sicula

Proto-oncogenes play an important role in the regulation of cellular growth and differentiation. C-Jun activity has been studied in the testis of a non mammalian vertebrate, the lizard Podarcis s. sicula, during two different periods: winter stasis and the breeding season. C-Jun protein was localized by immunocytochemistry in the cytoplasm of the spermatogonia (SPG) and stage I and II spermatocytes (SPC) during the winter stasis (from December until March), while the protein was present in the nuclei of the same cells during the active spermatogenic period (April/May). The different localization of c-Jun has been confirmed by Western blot and immunoprecipitation analysis. In addition, when Jun is present in the nuclear compartment, it is phosphorylated on Ser-63 and is complexed with Fos protein. These data suggest that the nuclear localization of the Jun protein in the SPG and stage I and II SPC, with strong phosphorylation on Ser-63 during the breeding period, could be the signal of increasing transcriptional activity in the lizard testis.

Hypertensive left ventricular remodeling and ACE-gene polymorphism

OBJECTIVE

To evaluate the relationship between ACE-gene polymorphism and left ventricular geometry in never treated hypertensives.

METHODS

We enrolled 200 hypertensive outpatients that underwent clinical and ambulatory blood pressure measurements, echocardiographic evaluation and analysis for insertion (I)/deletion (D) polymorphism by PCR. Patients with normal or increased (> 125 g/m2 in males and > 110 g/m2 in females) left ventricular mass were considered to have concentric remodeling or concentric left ventricular hypertrophy if their relative wall thickness was > or = 0.45.

RESULTS

The left ventricular mass index values (g/m2) were 136 +/- 30 in DD genotype, 124 +/- 26 in ID genotype, and 116 +/- 20 in II genotype (DD vs. ID P < 0.005; DD vs. II P < 0.05), and were unrelated to blood pressure. Ninety-six patients presented left ventricular hypertrophy (48.0%): 51 with concentric and 45 with eccentric hypertrophy. The eccentric left ventricular hypertrophy was detected in 32 (36.8%) DD patients, in ten (10.5%) ID patients (P < 0.05), and in three (16.6%) II patients. The relative septal thickness was 0.43 +/- 0.09 in DD genotype, 0.45 +/- 0.08 in ID genotype, and 0.43 +/- 0.10 in II genotype. In DD and ID genotypes, the relative posterior wall thickness (0.37 +/- 0.07 vs. 0.41 +/- 0.07; P < 0.0001) and the end-diastolic left ventricular internal dimension (52.8 +/- 3.3 mm vs. 48.3 +/- 2.8 mm; P < 0.0001) were statistically different.

CONCLUSIONS

The DD genotype of the ACE-gene is associated with an increased left ventricular mass and with a significantly higher prevalence of eccentric left ventricular hypertrophy, when compared to ID genotype.

Endogenous insulin-like growth factors regulate the proliferation of TSH-independent mutants derived from FRTL5 cells

TSH-independent mutant clones (M cells) derived from FRTL5 cells, proliferate vigorously in the absence of TSH. The growth of M cells is stimulated by IGF-I in a dose-dependent fashion, but it is not influenced by TSH. Sm1.2, an antibody against IGF-I cross-reacting with IGF-II, significantly decreases basal DNA synthesis in the M cells. Binding of 125I-IGF-I to M cells is significantly lower than that to FRTL5 cells. M cells produce in their culture medium IGF-like peptides which appear to influence their basal DNA synthesis and the availability of type I receptors to bind exogenous IGF-I.

Sustained versus transient cyclic AMP intracellular levels: effect on thyrotropin-dependent growth of thyroid cells

Cyclic AMP (cAMP) is the second messenger that stimulates growth and differentiation of thyroid cells, which are dependent upon thyrotropin for the initiation of the cell cycle. Treatment of thyroid cells with phosphodiesterase inhibitors, such as 1-methyl-3-isobutylxanthine (IBMX), RO-20-1724, or aminophylline, induces persistent levels of cAMP and blocks cell proliferation. IBMX-treated cells are arrested at the G1-S border, but removal of the drug allows cell growth to resume. The inhibiting effect of IBMX is dose dependent, and the phase of the cell cycle is irrelevant. These data indicate that prolonged and steady accumulation of cAMP blocks the cell cycle in thyroid cells.

Thyroid cell transformation inhibits the expression of a novel rat protein tyrosine phosphatase

We have isolated a rat thyroid cDNA encoding a novel rat receptor-type tyrosine phosphatase protein. This gene, on the basis of its homology to another tyrosine phosphatase, the recently isolated human DEP-1/HPTPeta, has been named r-PTPeta. In rat thyroid cells the r-PTPeta gene acts as a differentiation marker. Indeed, the block of thyroid cell differentiation induced by viral and cellular oncogenes is associated with the inhibition or marked reduction of the expression of this gene, and its expression is positively regulated by thyrotropin, the physiological stimulator of thyroid cell growth.

Deletion polymorphism of angiotensin-converting enzyme gene and left ventricular hypertrophy in southern Italian patients

OBJECTIVES

This study sought to evaluate the possible association of polymorphism of the angiotensin-converting enzyme (ACE) gene with blood pressure and left ventricular mass index (LVMI).

BACKGROUND

The renin-angiotensin system seems to be involved in the pathogenesis of essential hypertension. Moreover, recent epidemiologic observations demonstrate that many subjects with left ventricular hypertrophy have normal blood pressure levels, suggesting that factors other than hemodynamic overload may contribute to the hypertrophy.

METHODS

The study included 140 untreated hypertensive outpatients who underwent ambulatory blood pressure monitoring, echocardiographic evaluation and analysis for insertion (I)/ deletion (D) polymorphism in intron 16 of the ACE gene by polymerase chain reaction. Blood pressure was measured at 24 h, and LVMI was calculated by the Devereux formula, in each patient.

RESULTS

Left ventricular mass index values (mean +/- SD) were 137 +/- 28 g/m2 in patients with the DD genotype, 125 +/- 27 g/m2 in those with the ID genotype and 115 +/- 27 g/m2 in those with II genotype. The frequencies of the DD, ID and II genotypes were 45.71% (n = 64), 46.42% (n = 65) and 7.85% (n = 11), respectively, and were in Hardy-Weinberg equilibrium. The strongest association between left ventricular mass and DD genotype in our cohort appeared to be an independent cardiovascular risk factor (DD vs. ID: odds ratio [OR] 2.497, 95% confidence interval [CI] interval 1.158 to 5.412, p < 0.05; DD vs. II: OR 6.577, 95% CI 1.169 to 28.580, p < 0.02).

CONCLUSIONS

Our data show that the LVMI was significantly enhanced in patients with the DD genotype.

Identification of HCV genotypes in the Calabria region

The present work describes the distribution of HCV genotypes in Calabria. The data presented suggest that, in the sample of population investigated, genotype 1b is the most prevalent followed by the 2b and the 2a.. In addition it is important to note that in Calabria the prevalence of genotype 1b is strikingly high in respect to the other Italian pullulation. An Association between HCV type 1b and the more severe clinical course of the liver disease has been reported. Although the data presented indicate that in Calabria most of the subjects enrolled in the study are infected by a virulent HCV strain, no association has been found with more severe clinical manifestations.

In the thyroid cells proliferation, differentiated and metabolic functions are under the control of different steps of the cyclic AMP cascade

In the course of studies to elucidate the complex network of interactions controlling FRTL5 cell proliferation, thyroid stimulating hormone (TSH)-independent mutants (M cells), have been obtained from FRTL5 cells by chemical mutagenesis. In the present studies, the role of TSH on the proliferation and on differentiated and metabolic functions in these mutant cells have been investigated and compared to their response to insulin-like growth factor I (IGF-I). The addition of IGF-I to M cells leads to normal stimulation of DNA synthesis. However, inspite of the fact that mutant cells display normal TSH receptors, TSH is unable to stimulate the proliferation of the M cells. Nevertheless, TSH is able to increase intracellular levels of cAMP leading to regulation of TSH function in the M cells. On the other hand, TSH does not influence iodide transport and actin filaments depolimerization in these cells. However, aminoacid transport, stimulated in wild-type FRTL5 cells by both TSH and IGFs, is under the control of IGFs but not of TSH in the mutant cells. Neither TSH or IGF-I modified the expression of c-fos proto-oncogene in the M cells, probably because of high constitutive expression. These data suggest that a crucial signalling step(s) required for TSH induced mitogenesis is impaired in the M cells, and that this signalling step is not required for IGF-I induced mitogenesis.

Transfected insulin-like growth factor II modulates the mitogenic response of rat thyrocytes in culture

Rat thyroid cells (FRTL5), transfected with the sequence coding for rat insulin-like growth factor II (IGF-II) presented mRNA specific for the transfected IGF-II in most of the clones obtained (Tr clones). Tr7 and Tr12 cells maintained their ability to respond to the mitogenic effect of thyrotropin (TSH), while either exogenous IGF-I or IGF-II or insulin failed to stimulate their proliferation. In the absence of exogenous mitogens the Tr7 and Tr12 clones vigorously incorporated [3H]thymidine into DNA. This activity was significantly inhibited by sm1.2, a monoclonal antibody against rat IGF-II. Tr7 and Tr12 clones possess type I IGF receptors, known to mediate the mitogenic effect of IGF-II, with affinity similar to those present on the membrane of the parental cells but with reduced capacity. Finally, media conditioned by Tr7 and Tr12 increase basal thymidine incorporation in quiescent FRTL5 cells and amplify that induced by TSH. Endogenous IGFs may play an important role in the regulation of thyroid cell proliferation by modulating the mitogenic effect of TSH and by supporting TSH-independent growth.

The tissue-specific pathways regulating cell proliferation are inherited independently in somatic hybrid between thyroid and liver cells

Thyroid stimulating hormone (TSH) and insulin-like growth factors type 1 (IGF-I) regulate the proliferation and differentiation of cultured thyroid cells but not of cultured liver cells. We have examined the influence of TSH and IGF-I on the metabolic functions and proliferation of somatic hybrids obtained by fusing rat thyroid cells (FRTL5) with rat liver cells (BRL). While IGF-I is able to stimulate the proliferation of the hybrid cells (TxL) TSH fails to induce their growth. However, the hybrid TxL cells have surface TSH receptors with normal ligand characteristics. The addition of TSH to TxL cells led to typical enhancement of cAMP production and depolymerization of actin filaments. Yet, TSH failed to stimulate iodine uptake in the hybrid cells. Interestingly, iodine inhibited TxL proliferation induced by IGF-I but not by serum. It is concluded that the hybrid TxL cells inherited from the parental thyroid cells several important differentiated traits including mitogenic pathways induced and used by IGF-I, functional TSH receptors, and sensitivity to the inhibitory action of iodine.

Adenosine has divergent effects on deoxyribonucleic acid synthesis in FRTL5 cells: inhibition of thyrotropin-stimulated and potentiation of insulin-like growth factor-I-stimulated thymidine incorporation

Adenosine inhibits TSH-stimulated [3H]thymidine incorporation into DNA in FRTL5 thyroid follicular cells by both inhibiting cAMP generation and acting at a locus beyond adenylate cyclase. On the other hand, adenosine markedly potentiates DNA synthesis in FRTL5 stimulated by insulin-like growth factor-I (IGF-I). The mechanisms of this latter effect are unknown, but require the coincubation of adenosine and IGF-I and not mediated by an increase in intracellular cAMP concentration. Adenosine increases the maximal response of FRTL5 to [3H]thymidine incorporation stimulated by IGF-I and increases the sensitivity of FRTL5 to IGF-I. These effects of adenosine are reflected by an increase in nuclear labeling as well as by an increase in [3H]thymidine incorporation into DNA. Adenosine also plays a role as an autocrine growth factor in FRTL5, since adenosine deaminase increases the response of these cells to TSH. The effects of adenosine on both TSH- and IGF-I-stimulated DNA synthesis are shared by guanosine and inosine, although with different potencies for the various guanine nucleosides. Inosine potentiates IGF-I-stimulated DNA synthesis, but inhibits TSH-stimulated DNA synthesis only weakly. Adenosine interacts with multiple receptors and with multiple postreceptor pathways in FRTL5 to produce divergent effects on the control of cell replication by two growth factors (TSH and IGF-I) that act through different postreceptor pathways.

Iodine inhibits the proliferation of rat thyroid cells in culture

We have explored the mechanisms whereby iodine inhibits thyroid growth using as models both the FRTL5 line of rat thyroid follicular cells that require TSH for growth and the M12 line of mutant cells that grow in the absence of TSH. Between 0.01-1.0 mM, NaI produced a dose-dependent inhibition of TSH stimulation of [3H]thymidine incorporation and replication in FRTL5 cells as well as spontaneous growth in M12 cells. Iodide also inhibited the cAMP-dependent growth of FRTL5 cells induced by forskolin and (Bu)2cAMP, as well as the cAMP-independent mitogenesis induced by insulin-like growth factor-I. The effect of iodide to inhibit both TSH- and insulin-like growth factor-I-stimulated growth in FRTL5 cells was abolished by concomitant culture with methimazole, and no iodide inhibition of growth was observed in L6 myoblasts and BRL 30E hepatocytes. Exposure of cells to iodide under conditions that resulted in inhibition of TSH-stimulated growth did not significantly alter the ability of TSH to increase the intracellular cAMP concentration, nor did iodide alter two responses to TSH in FRTL5 cells that depend upon an increase in cAMP concentration: down-regulation of TSH receptor and cytoskeletal reorganization. We conclude that iodide exerts its inhibitory action on the growth of thyroid cells at multiple loci related to both the cAMP-dependent and cAMP-independent pathways of mitogenic regulation.

Multiple factors influence insulin-like growth factor-I binding to human skin fibroblasts

The binding of [125I]insulin-like growth factor-I ([125I]IGF-I) to human skin fibroblasts (HSF) is regulated by multiple factors. In monolayers of HSF, IGF-I binds to both the type I IGF receptor and IGF-binding proteins (BPs) associated with the cell surface. [125I]IGF-I binding to both of these proteins depends markedly on the sodium chloride concentration of the binding buffer. In monolayers of HSF, replacing 120 mM NaCl with isoosmotic concentrations of sucrose increases binding of [125I]IGF-I by 2- to 6-fold. Enhancement of [125I]IGF-I binding in the absence of sodium chloride is also seen in HSF in suspension, in human erythrocytes, in monolayers of HEP G2 cells and FRTL5 cells, and in membranes prepared from human placentae. Kinetic analysis of [125I]IGF-I binding to HSF monolayers reveals that association rates are increased and dissociation rates are decreased in the absence of sodium chloride. The binding of [125I]alpha IR-3, a monoclonal antibody to the human type I IGF receptor, to monolayers and suspensions of HSF also depends on the sodium ion concentration; it is 5- to 7-fold higher in the absence of sodium chloride. Binding of [125I]IGF-I to monolayers of HSF also depends on NaCl under conditions where alpha IR-3 saturates the type I IGF receptor but does not affect IGF-BPs. These findings demonstrate that sodium chloride has a marked effect on the interaction of IGF-I with the type I IGF receptor in the plasma membrane and with BPs associated with the surface of intact HSFs. Since an effect is also evident in membranes prepared from intact tissues (human placenta), occurs at 4 C, and occurs with cells devoid of BPs, a mechanism involving receptor or BP translocation seems unlikely, at least as the sole explanation for these findings. Sodium ions (and other ions) may induce a conformational change in the receptor and BPs and cause decreased availability of both the IGF-I-binding site and the alpha IR-3 epitope on the receptor and the IGF-binding site on the BP.

Transferrin in FRTL5 cells: regulation of its receptor by mitogenic agents and its role in growth

Transferrin, a serum iron-binding protein, delivers iron to the cell after binding to specific receptors on the cell surface and is an important component of culture medium for virtually all cell lines, including the FRTL5 line of rat thyroid follicular cells. Therefore, we undertook studies in FRTL5 cells to examine the regulation of the transferrin receptor, the effects of transferrin on growth and differentiated functions, and the interactions of transferrin with several mitogenic pathways. FRTL5 cells possess one class of saturable transferrin receptors (Ka, 0.7 x 10(9) M-1). Binding of 125I-labeled transferrin was highest in actively growing cells and declined progressively, reaching minimal values when confluence was achieved. Removal of transferrin from culture medium caused a rapid increase in transferrin binding. TSH, acting within 5 min, induced a modest increase in transferrin binding, due to a cycloheximide-resistant increase in binding sites. Binding of transferrin after a 24-h incubation was also increased by other mitogenic agents, (Bu)2cAMP, forskolin (FK), insulin, insulin-like growth factor-I (IGF-I), and the phorbol ester TPA. Transferrin alone stimulated growth only minimally, but enhanced the mitogenic effect of TSH, (Bu)2cAMP, and FK, all of which act through the cAMP pathway. In contrast, transferrin did not alter the cAMP-independent mitogenic effects of insulin and IGF-I. Transferrin did not affect TSH-induced cAMP generation. Desferoxamine, an iron chelator, inhibited the mitogenic effects of all of the agents tested. Desferoxamine had no significant effect on TSH-induced cAMP accumulation. We conclude that FRTL5 cells contain saturable receptors for transferrin whose abundance varies with the rate of cell replication. Transferrin down-regulates its own receptors, while stimulation of growth by various mitogens is accompanied by increased binding of transferrin. Transferrin enhances the mitogenic effect of the cAMP-dependent mitogens, TSH, (Bu)2cAMP, and FK, without modifying basal or stimulated cAMP generation. In contrast, transferrin fails to affect the mitogenic responses to IGF-I and insulin, which are cAMP independent. Iron is required for the mitogenic response to various mitogens, especially those that are cAMP dependent.

Effects of rat gamma- and non-gamma-interferons on the expression of Ia antigen, growth, and differentiated functions of FRTL5 cells

We undertook the present studies with several objectives in mind: 1) to determine whether recombinant rat gamma-interferon (r gamma IFN) would induce expression of the class II major histocompatibility antigen (Ia) in rat thyroid follicular cells (FRTL5) in culture as human gamma IFN does in cultured human thyrocytes; 2) to characterize the properties of this response, if it does indeed occur; 3) to ascertain whether r gamma IFN has any effect on the growth or differentiated function of FRTL5 cells; and 4) to determine how, if at all, effects of r gamma IFN on the growth and function of FRTL5 cells might be related to expression of the Ia antigen. At concentrations between 1 and 30 U/ml, r gamma IFN induced expression of Ia antigen in a concentration-dependent manner. With a supramaximal concentration of r gamma IFN, Ia antigen first appeared between 4 and 16 h and reached a maximum concentration at about 36 h. After removal of r gamma IFN, the Ia antigen concentration remained constant for about 24 h and then declined, becoming undetectable by 72 h. Induction could not be detected in FRTL5 cells cultured with human gamma IFN, rat non-gamma IFN, Concanavalin-A, phytohemagglutinin, or bovine TSH (bTSH). Over the same range of concentrations that induced the Ia antigen, r gamma IFN proved to be a potent inhibitor of the growth of FRTL5 cells induced by a variety of agents. It produced a concentration-dependent inhibition of the stimulation of [3H] thymidine incorporation and cell replication in FRTL5 cells induced by bTSH. This effect was unaccompanied by any inhibition of either the binding of bTSH to FRTL5 cells or the bTSH-induced increase in cellular cAMP concentration induced therein. However, r gamma IFN did inhibit the stimulation of [3H] thymidine incorporation into DNA induced by (Bu)2cAMP. r gamma IFN also inhibited the stimulation of DNA synthesis and cell replication induced by insulin-like growth factor I (IGF-I) without affecting the specific binding of IGF-I, and decreased the extent of stimulation of [3H]thymidine incorporation induced by the phorbol ester tetradecanoyl phorbol acetate (TPA). Thus, r gamma IFN inhibited both the cAMP-dependent pathway of growth activated by TSH, doing so at some post-cAMP locus, and the cAMP-independent pathways of growth regulation that are activated by IGF-I and TPA.(ABSTRACT TRUNCATED AT 400 WORDS)

Demonstration of the production and physiological role of insulin-like growth factor II in rat thyroid follicular cells in culture

Insulin-like growth factors (IGFs) are potent mitogens for FRTL5 rat thyroid follicular cells. IGFs also synergize the independent mitogenic effects of thyrotropin-stimulating hormone (TSH) and other agents that increase intracellular AMP concentration. We examined whether FRTL5 cells and M12 cells, a TSH-independent mutant cell line derived therefrom, secrete IGF that regulates the growth of rat thyroid follicular cells. Immunoreactive IGF-II, but not IGF-I, was found in media conditioned by FRTL5 cells; media from M12 cells contained four- to fivefold higher concentrations. Medium conditioned by FRTL5 and M12 both stimulated [3H]thymidine incorporation in FRTL5 and amplified the mitogenic effects of TSH. M12-conditioned medium was more potent than FRTL5-conditioned medium. Sm-1.2, a monoclonal antibody that recognizes IGF-I and IGF-II but not insulin, inhibited basal DNA synthesis in FRTL5 and M12 cells and the mitogenic effects in FRTL5 of agents that are synergized by IGF, such as TSH, forskolin, Bt2cAMP, and Graves'-IgG. Sm-1.2 did not inhibit the mitogenic response to insulin. Thus, rat insulin-like growth factor II (rIGF-II) is an autocrine growth factor that regulates FRTL5 growth, in part by amplifying the mitogenic response to TSH. Results with M12 cells raise the possibility that endogenous rIGF-II may partially mediate the TSH-independent growth of these cells.

Independent and interactive effects of tetradecanoyl phorbol acetate on growth and differentiated functions of FRTL5 cells

In studies of regulation of the growth and differentiated function of the thyroid follicular cell, we have employed the FRTL5 cell line to evaluate both the effects of agents that activate protein kinase-C (PKC) and their interaction with other agents that influence the growth and/or function of the FRTL5 cell. The PKC activator tetradecanoyl-phorbol acetate (TPA) alone induced a time- and concentration-dependent stimulation of the incorporation of [3H]thymidine into the DNA of quiescent FRTL5 cells, an effect anteceded by an increase in the levels of the mRNAs of the proto-oncogene c-myc and associated with a stimulation of cell replication. TPA also produced a dose-dependent inhibition of the low levels of radioiodine uptake in quiescent FRTL5 cells. These effects of TPA were unaccompanied by any change in the cellular cAMP concentration. TPA also modified a variety of responses to TSH, attenuating the TSH-induced stimulation of [3H]thymidine incorporation into DNA, cell replication, cAMP generation, and iodine uptake. Inhibition of TSH-stimulated growth and iodine uptake by TPA could not be ascribed solely to a decrease in cAMP generation, since TPA also inhibited the increase in [3H]thymidine incorporation and iodide uptake induced by the cAMP analog (Bu)2cAMP. In contrast, the independent stimulatory effects of TPA and insulin-like growth factor I (IGF-I) on [3H]thymidine incorporation and cell replication were at least additive when the two stimulators were added together. We have previously reported that both TSH and (Bu)2cAMP amplify the enhancement of DNA synthesis and cell replication in FRTL5 cells induced by IGF-I, and that the response of DNA synthesis to IGF-I is also enhanced if cells are preincubated with either TSH or (Bu)2cAMP. Both the former amplification of mitogenesis and the latter priming effect were decreased by exposing cells to TPA concomitant with their exposure to TSH or (Bu)2cAMP. The effects of TPA were mimicked by other activators of PKC, but not by a phorbol ester that fails to activate this enzyme. In general, we conclude that in the FRTL5 cell, regulation of cell growth is extremely complex; there are at least three mitogenic pathways that are separate from but interact with one another. The first is the well known cAMP-dependent pathway, which is activated by TSH. The second is activated by IGF-I and is cAMP independent. These two pathways interact to produce a marked amplification of their individual mitogenic effects. The third pathway is that stimulated by TPA and involves activation of PKC.(ABSTRACT TRUNCATED AT 400 WORDS)

Supranormal stimulation of deoxyribonucleic acid synthesis in FRTL5 cells by serum from patients with untreated acromegaly

Insulin-like growth factor I (IGF-I) is one of a number of mitogenic factors in the serum of animals and humans. We demonstrated previously that IGF-I is a potent mitogen for FRTL5 cells, a line of rat thyroid follicular cells. In this study, we assessed the relevance of this finding with respect to the levels of IGF-I found in human serum by comparing the effects of normal serum and serum from patients with untreated acromegaly or hypopituitarism on DNA synthesis in quiescent FRTL5 cells. As expected, when added to cells maintained in Coon's modified Ham's F-12 medium containing 0.1% BSA, but devoid of insulin, transferrin, TSH, or calf serum, normal serum produced a dose-dependent stimulation of [3H]thymidine incorporation into DNA. A similar, but more marked, effect was produced by the addition of serum from patients with untreated acromegaly. In multiple experiments, a standard concentration (0.5%) of acromegaly serum was more stimulatory to DNA synthesis than was normal serum. In a single experiment designed to eliminate interassay variation and define the relationship between the ability of serum to stimulate DNA synthesis and its IGF-I concentration, studies were performed with 0.5% concentrations of serum from 9 normal subjects, 15 patients with untreated acromegaly, and 3 patients with panhypopituitarism. On the average, [3H]thymidine incorporation in the presence of serum from patients with acromegaly was approximately 3 times, and that in the presence of serum from patients with hypopituitarism only one fourth, that in the presence of serum from normal subjects; there was no overlap of individual values in the three groups. For the entire study group, we found a highly significant correlation (r = 0.86) between the serum IGF-I concentration and the ability of that serum to stimulate thymidine incorporation into the DNA of FRTL5 cells. The stimulatory effects of serum from both normal and acromegalic subjects were decreased or abolished by the addition of a monoclonal antibody against IGF-I. In hypophysectomized rats, GH increases the thyroid to body weight ratio and enhances the effect of TSH to promote thyroid growth. Further, an inordinate frequency of nontoxic goiter in patients with acromegaly has been reported. Taken together with these observations, our findings suggest that the effect of IGF-I to promote thyroid cell growth in vitro has a counterpart in the living animal or patient.

The role of adenosine 3',5'-monophosphate in the regulation of receptors for thyrotropin and insulin-like growth factor I in the FRTL5 rat thyroid follicular cell

Although regulatory effects on their own receptors are among the major responses to peptide hormones and growth factors, little is known of the mechanism of these effects. For example, a wealth of evidence indicates that cAMP is the mediator of many, if not most, of the actions of TSH on the growth and function of the thyroid cell, but evidently no information has been available concerning the possibility that cAMP may also mediate the effect of TSH to down-regulate its own receptors. Therefore, we examined this question using FRTL5 cells as a model, since we had previously shown that withdrawal of TSH from their culture medium and its subsequent readdition lead to increases and decreases, respectively, in the number of their TSH receptors. Because the growth of FRTL5 cells in response to TSH is modified by insulin-like growth factor I (IGF-I), we also examined the independent effect of TSH on receptors for IGF-I, the effects of IGF-I alone on both its own receptors and those for TSH, the effects of the two agents when added together, and the role of cAMP in the independent and conjoint effects of TSH and IGF-I on their own and each other's receptors. Growth of FRTL5 cells in the presence of bovine TSH (bTSH) resulted in a dose-dependent down-regulation of receptors for both bTSH and IGF-I. In contrast, IGF-I alone produced only a modest down-regulation of its own receptors and had no effect on the binding of bTSH. IGF-I did, however, enhance the effect of bTSH on the binding of both ligands. All of the foregoing down-regulatory effects of bTSH, acting both alone and together with IGF-I, were closely mimicked when either (Bu)2cAMP or forskolin was substituted for bTSH. Therefore, cAMP appears to mediate, at least in part, the effects of both bTSH alone and bTSH acting in concert with IGF-I to down-regulate receptors for both mitogens.

Adenosine 3',5'-monophosphate mediates both the mitogenic effect of thyrotropin and its ability to amplify the response to insulin-like growth factor I in FRTL5 cells

In previous studies we have demonstrated that bovine TSH (bTSH) and insulin-like growth factor I (IGF-I) independently stimulate both the incorporation of [3H]thymidine into DNA and replication in quiescent FRTL5 cells. In the case of TSH, evidence was presented that these responses are cAMP mediated. In addition, responses of thymidine incorporation are greatly amplified when particular concentrations of the two agents are added together, but this effect diminishes as the concentration of either bTSH or IGF-I is increased. The present experiments were undertaken to obtain further information concerning the mechanism of the independent mitogenic effects of bTSH and IGF-I and to explore the nature of the biphasic synergistic interaction with respect to thymidine incorporation that occurs when bTSH and IGF-I are added together. Verification that the increases in [3H] thymidine incorporation induced by bTSH and IGF-I, alone and together, are truly reflective of increases in DNA synthesis was obtained in experiments in which labeled nuclei were counted in cultures of cells grown in the presence of one or both mitogenic agents to which [3H]thymidine had been added. In these studies the number of cells with labeled nuclei was increased markedly by each of the two agents, and the response when the two mitogens were added together was far greater than the sum of their individual effects. Over a range of concentrations which included those that elicit a mitogenic response in FRTL5 cells, IGF-I, unlike bTSH, failed to increase cAMP generation when added alone. Moreover, IGF-I did not significantly enhance the cAMP response to varying concentrations of bTSH. A concentration-dependent increase in the incorporation of [3H]thymidine into DNA was induced by culturing cells in the presence of the cAMP analog (Bu)2cAMP (Bt2cAMP), the phosphodiesterase inhibitor isobutylmethylxanthine, and the stimulator of adenylate cyclase forskolin. When increasing concentrations of these agents were added together with IGF-I, a biphasic pattern of response of DNA synthesis, mimicking that produced by the combination of IGF-I and increasing concentrations of bTSH, was observed. Further evidence that cAMP mediates the mitogenic response to bTSH was the observation that adenosine inhibited the stimulation of both cAMP generation and DNA synthesis that bTSH produced. Although preincubation of quiescent FRTL5 cells for 24 h in the presence of bTSH resulted in only a small increase in DNA synthesis, measured during the last 3 h of a subsequent 24-h incubation carried out in the absence of bTSH, it greatly amplified the response to IGF-I added alone during the second incubation.(ABSTRACT TRUNCATED AT 400 WORDS)

Interleukin-1 stimulates thyroid cell growth and increases the concentration of the c-myc proto-oncogene mRNA in thyroid follicular cells in culture

In the course of studies of cell-mediated immunity in Graves' disease, we noted that normal peripheral blood monocytes, when stimulated by bacterial lipopolysaccharide, conditioned their media with a factor that had the physicochemical properties of the lymphokine interleukin-1 (IL-1) and that enhanced DNA synthesis and replication in quiescent FRTL5 cells, a line of nontransformed rat thyroid follicular cells. This finding led to the present studies, in which the effect of IL-1 (recombinant IL-1-p) on DNA synthesis in FRTL5 was explored. In the absence of serum, IL-1 induced a small, but significant, increase in [3H]thymidine incorporation into DNA. Calf serum (0.5%) alone also stimulated DNA synthesis slightly, but it greatly enhanced, in a synergistic manner, the stimulatory response to IL-1, decreasing the minimally effective concentration of IL-1 and amplifying the response to higher concentrations. A similar synergism was noted when quiescent FRTL5 were cultured with a combination of IL-1 and a low concentration of insulin-like growth factor-I (IGF-I), which itself stimulated DNA synthesis modestly. IL-1 also increased levels of the mRNA of the proto-oncogene c-myc in quiescent FRTL5, as TSH does, an effect thought to reflect commitment of the cell to increased growth. The findings indicate that IL-1 is an independent stimulator of thyroid cell growth, and that its effects are greatly enhanced by serum, probably in large measure by the IGF-I contained therein. They raise the possibility that IL-1 generated locally by intrathyroid macrophages may act directly by a short-loop mechanism to increase goiter formation in autoimmune thyroid disease.

Thyrotropin regulation of membrane lipid fluidity in the FRTL-5 thyroid cell line. Its relationship to cell growth and functional activity

The mitogenic effect of thyrotropin on functional rat thyroid cells of the line FRTL-5 is correlated with membrane lipid fluidity as evaluated by fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene. Continued exposure of FRTL-5 cells to a medium lacking thyrotropin causes cessation of cell proliferation and a decrease in membrane lipid fluidity which reaches its minimum in approximately 8 days. The change in lipid fluidity is due to an absolute increase (greater than 2-fold) of membrane cholesterol, with an increased cholesterol/phospholipid ratio and an increased ratio of saturated to unsaturated fatty acids of the membrane phospholipids, contributed primarily by a nearly 4-fold increase in the ratio of saturated to unsaturated C16 fatty acids. It is also associated with a variation of the relative proportions of the major membrane phospholipids; thus, phosphatidylinositol and phosphatidylethanolamine decrease while phosphatidylcholine increases. Both membrane fluidity and lipid composition can be restored by thyrotropin to their original levels, i.e. levels measured under continuous exposure to the hormone. Complete reversal requires at least 48 h, i.e. approximately the same time required for resumption of growth when FRTL-5 cells, starved in thyrotropin, are re-exposed to the hormone. Changes in lipid composition and fluidity can be prevented or can be reversed if FRTL-5 cells are exposed to dibutyryl cAMP while being deprived of thyrotropin. Dibutyryl cAMP has only a modest direct effect on growth; however, this pretreatment eliminates the 48-h lag phase with respect to thyrotropin stimulation. It is proposed that the effects of thyrotropin on growth of FRTL-5 cells requires a modification of the molecular structure and the physical state of cell membranes, which can be mediated by cAMP, although cAMP is not sufficient by itself to promote growth.

Characterization and regulations of the receptor for insulin-like growth factor-I in the FRTL-5 rat thyroid follicular cell line

In previous studies we have shown that insulin-like growth factor I (IGF-I) has a mitogenic effect in a line of rat thyroid follicular cells, the FRTL-5. In view of this effect, we undertook studies to identify and characterize some physicochemical and binding properties of the receptor for IGF-I in these cells and to determine what role it plays in the mitogenic activity of insulin and insulin-like growth factors in the FRTL-5 cell. Binding of 125I-labeled IGF-I (biosynthetic Thr59-IGF-I) to FRTL-5 was a function of time, temperature, and pH and was completely inhibited by high concentrations of unlabeled IGF-I. Scatchard plots of four saturation studies revealed a single apparent binding site with an average Ka of 4.2 +/- 0.6 X 10(9) M-1 (mean +/- SD) and an average maximum binding capacity of 20 +/- 2 pm/100 micrograms cellular protein. Rat IGF-II (rIGF-II) and insulin were far less potent that IGF-I in inhibiting the binding of [125I] IGF-I, and bovine TSH was without effect. 125I-Labeled IGF-II also bound to FRTL-5 cells. Binding was completely inhibited by unlabeled rIGF-II and, with lesser potency, by IGF-I. Even at high concentrations, insulin failed to inhibit the binding of [125I]IGF-II. Disuccinimidyl suberate cross-linked [125I]IGF-I to a moiety in FRTL-5 that had an apparent mol wt of approximately 135,000, as judged from sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. Cross-linking of [125I]IGF-I was inhibited in a dose-dependent manner by unlabeled IGF-I and, with far lower potency, by rIGF-II and insulin. All three peptides stimulated the incorporation of [3H]thymidine into the DNA of FRTL-5 cells, IGF-I being the most potent, followed in decreasing order of potency of rIGF-II and insulin. The mitogenic activities of these polypeptides correlated well with their abilities to inhibit the binding of [125I]IGF-I. These data indicate that the FRTL-5 cell possesses a receptor for IGF-I that resembles in its binding and physicochemical properties the receptor for IGF-I in other tissues (type I IGF receptor) and that mediates the mitogenic response to IGF-I and insulin in these cells. FRTL-5 cells also contain a receptor for IGF-II (type II IGF receptor), but its role vis-à-vis that of the type I IGF receptor in relation to the mitogenic effect of IGF-II in these cells is uncertain.

The carbohydrate moiety of bovine thyrotropin is essential for full bioactivity but not for receptor recognition

TSH is a glycoprotein hormone whose carbohydrate content varies among different species. Although recent studies suggest that variants of TSH deficient in carbohydrate occur naturally, the significance of the carbohydrate moiety of TSH in respect to its thyrotropic function is unclear. The present studies were undertaken, therefore, to examine this question. A highly purified preparation of bovine TSH (bTSH) was deglycosylated by treatment with anhydrous hydrogen fluoride. Amino acid and carbohydrate analyses of the original and deglycosylated preparations indicated that approximately 85% of the carbohydrate originally present had been removed and that the protein moiety was unaltered. As judged from TSH radioreceptor assays, bTSH and deglycosylated bTSH (dg-bTSH) bound to human thyroid membranes with equal affinity, since both caused a half-maximal inhibition of [125I]bTSH binding at approximately equal concentrations. Nonetheless, dg-bTSH at optimal concentration displayed only about one third the activity of intact TSH in stimulating adenylate cyclase activity in human thyroid membranes. dg-bTSH also antagonized the adenylate cyclase-stimulating activity of intact bTSH in this system, but only weakly, since abolition of the bTSH effect required an approximately 40-fold higher concentration of dg-bTSH. In cultures of FRTL5 cells, a cloned line of follicular cells derived from normal rat thyroid, both intact and dg-bTSH enhanced cell growth, as measured by [3H]thymidine incorporation and stimulated cAMP release in the medium, but the response elicited by dg-bTSH was much less than that caused by equal concentrations of the intact hormone. In accord with the findings in the in vitro assays, dg-bTSH evoked a much smaller response than bTSH did in the in vivo mouse assay. It is concluded that although not required for receptor recognition, the carbohydrate moiety of bTSH is essential for the full expression of its biological activity.

Insulin-like growth factor-I stimulates the growth of rat thyroid cells in culture and synergizes the stimulation of DNA synthesis induced by TSH and Graves'-IgG

The present studies were undertaken to examine the factors that influence the growth of cells of endocrine gland origin, particularly the possible interactions between "nonspecific" growth factors and the trophic hormone for a target endocrine cell. As a model system, we explored the individual and conjoint effects of insulin-like growth factor-I (IGF-I) and TSH on the growth of FRTL5 cells, a nontransformed line of cloned rat thyroid follicular epithelium. In these cells, IGF-I and TSH each produced a dose-dependent enhancement of DNA synthesis and cell proliferation. When added together, IGF-I and TSH were markedly synergistic in stimulating DNA synthesis, producing increases in 3H-thymidine incorporation that were far greater than the sum of the effects of each alone. A similar effect of IGF-I was evident in the case of the stimulation of DNA synthesis produced by immunoglobulin G (IgG) preparations from the blood of patients with Graves' disease. Such IgG bind to the TSH receptor and mimic the actions of TSH therein. It is suggested, therefore, that there exist in the FRTL5 cell line at least two mechanisms for the regulation of growth, one activated at the level of the IGF-I receptor and the other at the level of the TSH receptor. When the two pathways are activated concurrently, a synergistic enhancement of DNA synthesis takes place. The findings indicate that the FRTL5 cell line is an excellent model in which to study these complex interactions and that IGF-I may be a determinant of thyroid cell growth, both normally and in certain thyroid diseases.

Properties and regulation of the thyrotropin receptor in the FRTL5 rat thyroid cell line

Despite extensive use of FRTL5 cells in studies of responses to TSH and anti-TSH receptor antibodies, almost nothing is known of the properties of their TSH receptors, possibly because binding of TSH by these cells is negligible when studied in their usual culture medium. In the present studies, we have demonstrated that specific binding of TSH can readily be demonstrated in confluent monolayers of FRTL5 cells if their culture medium is replaced by Krebs-Ringer bicarbonate (KRB) buffer. In keeping with previous observations concerning the effects of cations on the binding of TSH in other thyroid systems, binding of TSH to FRTL5 was far greater when the medium used was a modified KRB in which an isosmotic substitution of sucrose for NaCl had been made. Kinetic studies of TSH binding in both types of medium suggested the presence of two binding sites, one with a higher affinity and lower maximum binding capacity than the other. The influence of NaCl was to decrease the capacity of both sites, that of the low affinity site to a greater extent than that of the high affinity site, whereas the affinities of the two sites remained unchanged. Correlative studies indicated that physiological responses to TSH were associated mainly with occupancy of the higher affinity sites. Experiments in which TSH binding was studied in cells grown to confluence in the presence of TSH from which TSH was then withdrawn and in cells maintained in the absence of TSH to which TSH was then added demonstrated the occurrence of up-and down-regulation, respectively, of receptor concentrations without a change in their affinities. The reduction in maximum binding capacity induced by TSH was proportionately greater in the case of the high affinity than the low affinity receptor. Down-regulation by TSH was concentration dependent and was demonstrable at a TSH concentration of 10(-11) M, considered to be physiological. Further, maximum down-regulation was induced by 10(-9) M TSH, the approximate concentration at which other responses to TSH in these cells reach their peak. Therefore, down-regulation of TSH receptors can be considered to be one of the physiological responses that TSH elicits.