Development, implementation and evaluation of a multinational FLS mentorship programme in Latin America.

Realising the benefits of systematic secondary fracture prevention requires supporting local sites to get started and becoming effective. We here describe the development, implementation and impact of a regional fracture liaison service (FLS) mentorship programme in Latin America that led to 64 FLS getting started and coverage of 17,205 patients. INTRODUCTION: Despite treatments and service models to deliver effective secondary fracture prevention, most patients are left untreated after a fragility fracture. To improve the capability to get FLS started and more effective, we describe the development, implementation and evaluation of an international programme to develop national communities of FLS mentors as part of the Capture the Fracture Partnership in Latin America. METHODS: The IOF regional team and the University of Oxford developed the curriculum and associated resources for training mentors in setting up FLS, service improvement and mentorship. Mentors were selected during a preparatory meeting, trained using live online sessions followed by regular mentor-led post-training meetings. The programme was evaluated using a pre-training needs assessment and post-training evaluation based on Moore's outcomes. RESULTS: The mentorship programme was initiated in Mexico, Brazil, Colombia and Argentina. The mentors were multidisciplinary, including orthopaedic surgery, rehabilitation, rheumatology, endocrinology, geriatrics, gynaecology and internal medicine. There was 100% participation in training sessions and reported satisfaction with the training. Since the initiation of the training programme, 22 FLS have been set up in Mexico, 30 in Brazil, 3 in Colombia and 9 in Argentina, in comparison with two in Chile and none in any other LATAM countries that were not involved in the mentorship programme. This equates to approximately 17,025 additional patients identified from 2019 to 2021 after initiation of mentorship. The mentors have engaged with 58 FLS for service development. Post-training activities include two published national best practice guidelines and other country-specific resources for FLS in the local language. CONCLUSION: Despite the COVID pandemic, the mentorship pillar of the Capture the Fracture Partnership has developed a community of FLS mentors with measurable improvement in national FLS provision. The programme is a potentially scalable platform to develop communities of mentors in other countries.

The Capture the Fracture® Partnership: an overview of a global initiative to increase the secondary fracture prevention care for patient benefit.

The Capture the Fracture® Partnership (CTF-P) is a unique collaboration between the International Osteoporosis Foundation, academic units and industry partners to enhance the implementation of effective, efficient fracture liaison services (FLSs) with a good patient experience. CTF-P has generated valuable resources for the specific countries as well as the broader FLS community to improve the initiation, effectiveness and sustainability of FLS in a wide range of healthcare settings.

Epigenetic patterns of the retinoic acid receptor beta2 promoter in retinoic acid-resistant thyroid cancer cells.

Treatment with retinoic acid (RA) is effective to restore radioactive iodine uptake in metastases of a small fraction of thyroid cancer patients. In order to find predictive markers of response, we took advantage of two thyroid cancer cell lines, FTC133 and FTC238, with low RA-receptor (RAR)beta expression but differing in their response to RA. We report that in both cell lines, RA signalling pathways are functional, as transactivation of an exogenous RARbeta2 promoter is effective in the presence of pharmacological concentrations of all-trans RA, and enhanced in RA-resistant FTC238 cells after ectopical expression of RARbeta, suggesting a defective endogenous RARbeta2 promoter in these cells. Further analyses show that whereas the RARbeta2 promoter is in an unmethylated permissive status in both FTC133 and FTC238 cells, it failed to be associated with acetylated forms of histones H3 or H4 in FTC238 cells upon RA treatment. Incubation with a histone deacetylase inhibitor, alone or in combination with RA, restored histone acetylation levels and reactivated RARbeta and differentiation marker Na+/I- symporter gene expression. Thus, histone modification patterns may explain RA-refractoriness in differentiated thyroid cancer patients and suggest a potential benefit of combined transcriptional and differentiation therapies.

Evolution of scoliosis in six children treated with growth hormone.

During a period of 6 years to 11 years, the authors have been following six girls with scoliosis and treated with growth hormone (GH) for a growth insufficiency. The treatment with GH started after the discovery of the scoliosis for five patients. Three curve progressions have been observed, but always in the puberty period. Only one progression was noticed at the beginning of the GH treatment, but it was relieved with bracing. The results of this study do not permit one to conclude that a relation exists between GH treatment and scoliotic progression. This treatment is nevertheless not devoid of side effects, and a rigorous supervision is necessary.

Interferon-gamma-induced membrane PAF-receptor expression confers tumor cell susceptibility to NK perforin-dependent lysis.

Perforin is known to display a membranolytic activity on tumor cells. Nevertheless, perforin release during natural killer (NK)-cell activation is not sufficient to induce membrane target-cell damage. On the basis of the ability of perforin to interact with phospholipids containing a choline phosphate headgroup, we identify the platelet-activating factor (PAF) and its membrane receptor as crucial components in tumor cell killing activity of human resting NK cells. We demonstrate for the first time that upon activation, naive NK cells release the choline phosphate-containing lysolipid PAF, which binds to perforin and acts as an agonist on perforin-induced membrane damage. PAF is known to incorporate cell membranes using a specific receptor. Here we show that interferon-gamma (IFN-gamma) secreted from activated NK cells ends in PAF-receptor expression on perforin-sensitive K562 cells but not on perforin-resistant Daudi cells. In order to prove the capacity of PAF to interact simultaneously with its membrane PAF receptor and with perforin, we successfully co-purified the 3 components in the presence of bridging PAF molecules. The functional activity of this complex was further examined. The aim was to determine whether membrane PAF-receptor expression on tumor cells, driven to express this receptor, could render them sensitive to the perforin lytic pathway. The results confirmed that transfection of the PAF-receptor complementary DNA into major histocompatibility complex class I and Fas-receptor negative tumor cells restored susceptibility to naive NK cells and perforin attack. Failure of IFN-gamma to induce membrane PAF receptor constitutes the first described mechanism for tumor cells to resist the perforin lytic pathway.

Perforin and granzyme B lytic protein expression during chronic viral and autoimmune hepatitis.

BACKGROUND: Cytotoxic T lymphocytes and Kupffer cells are essential components of the immune response during liver diseases. Recent studies have highlighted the role of cytotoxic T lymphocytes using Fas and its ligand in induced hepatocyte death during acute and chronic hepatitis. METHODS: In the present work, the main purpose was to investigate perforin and granzyme B expression in liver biopsies of patients with chronic hepatitis (10 HBV, 14 HCV and 10 autoimmune hepatitis) using immunohistochemistry. The liver biopsies of two normal individuals were also studied in the same conditions. RESULTS: Few intrahepatic T lymphocytes expressed perforin and granzyme B, while a large number of Kupffer cells were positive for both proteins in all the patients tested. The co-localization of perforin and granzyme B, and CD3 or CD68 antigens was visualized, respectively, in T cells and Kupffer cells, using confocal microscopy. In situ hybridization assays confirmed that perforin and granzyme B mRNAs were present in the liver during chronic hepatitis. The results were similar among the three groups of patients and whatever the activity of the disease. Perforin and granzyme B expression was lacking in liver samples from normal individuals. CONCLUSIONS: These data suggest a minor role for the T cell-mediated perforin/granzyme B death pathway, and a putative role for Kuppfer cells via lytic protein release, during chronic hepatitis.

Acquisition of granzyme B and Fas ligand proteins by human keratinocytes contributes to epidermal cell defense.

In vertebrate tissues, cell integrity is maintained by at least three mechanisms. During an immune response, injured cells are eliminated by cytotoxic lymphoid cells that produce perforin, granzyme B, and Fas ligand (FasL). Second, epithelial cells can produce FasL as an immunosuppressive protein, probably to protect the tissue against immune-mediated damage. Third, locally secreted antimicrobial peptides can be operative in the protection of animal and human epithelia. In this work, as another contribution to local mechanisms of host defense, the ability of human epidermal keratinocytes to produce cytotoxic proteins was investigated. To address this question, freshly isolated human epidermal cells and keratinocytes grown in vitro were studied. Freshly isolated epidermal cells did not express the cytolytic proteins. In contrast, keratinocyte growth to confluence was associated with granzyme B, perforin, and FasL mRNA and protein synthesis. These proteins were secreted in the culture medium. Further analysis showed that they were identical with the ones used by cytotoxic lymphocytes. Their function was then investigated with a view to a potential role in epidermal cell integrity. The data showed that activated human keratinocytes were able to protect against invading pathogens through granzyme B expression. This was demonstrated by the ability of granzyme B to greatly decrease the bacterial growth of Staphylococcus epidermidis. In addition, keratinocytes expressing FasL were found to prevent immune epidermal cell damage. Apoptosis of Fas-sensitive T cells occurred during coculture with confluent epidermal keratinocytes and was largely reduced by the addition of a FasL inhibitor. The data favor keratinocyte involvement in the regulation of dermal inflammatory responses.

Granzyme B and perforin lytic proteins are expressed in CD34+ peripheral blood progenitor cells mobilized by chemotherapy and granulocyte colony-stimulating factor.

Granzyme B and perforin are cytoplasmic granule-associated proteins used by cytotoxic T lymphocytes and natural killer (NK) cells to kill their targets. However, granzyme B gene expression has also been detected in a non-cytotoxic hematopoietic murine multipotent stem cell line, FDCP-Mix. The objective of the present study was to investigate whether granzyme B and perforin could be expressed in human hematopoietic CD34+ cells and if present, discover what their physiologic relevance could be. The primitive CD34+ human cell line KG1a was investigated first and was found to express granzyme B and perforin. Highly purified hematopoietic stem/progenitor cells were then selected using the CD34 surface antigen as marker. Steady-state bone marrow (BM) CD34+ cells did not contain these proteins. Peripheral blood (PB) CD34+ cells, which had been induced to circulate, were also analyzed. After chemotherapy (CT) and granulocyte colony-stimulating factor (G-CSF) treatment, CD34+ cells strongly expressed mRNAs and proteins of granzyme B and perforin. In contrast, CD34+ cells mobilized by G-CSF alone were negative. Western blot analysis further showed that granzyme B and perforin proteins were identical in CD34+ cells and activated PBLs. Such proteins might be implicated in the highly efficient migration of CD34+ stem/progenitor cells from BM to PB after CT and G-CSF treatment. The cellular adhesion mechanisms involved in the BM homing of CD34+ cells are disrupted at least temporarily after CT. The Asp-ase proteolytic activity of granzyme B on extracellular matrix proteins could be used by progenitor cells for their rapid detachment from BM stromal cells and perforin might facilitate their migration across the endothelial cell barrier.

[Palliative celioscopic gastrojejunal anastomosis in the treatment of neoplastic duodenal stenoses]. / Anastomose gastro-jéjunale palliative par coelioscopie dans le traitement des sténoses duodénales néoplasiques.

Gastroenterostomy procedure is actually the best palliative treatment for malignant duodenal obstruction, unresectable or with hepatic metastases. The authors reported a technique by laparoscopic way. This technique has been performed in 30d patients with good results.

Cord blood T lymphocytes lack constitutive perforin expression in contrast to adult peripheral blood T lymphocytes.

Perforin is the cytolytic pore-forming protein, which alone can be responsible for the lethal hit in one of the killing mechanisms used by natural killer (NK) cells or cytotoxic T lymphocytes. In this study, perforin expression was investigated in cord blood (CB) lymphocytes to determine their killing potential in vivo. The majority of CB CD3- NK cells had the protein. Compared with adult perforin-positive NK cells, a significantly lower percentage of cells expressing CD56 and CD57, the related neural cell adhesion molecules, was found (P = .0001). Perforin was also present in a unique immature CB NK-cell subset, characterized by cytoplasmic CD3 antigen (Ag) expression. In CB, very few CD8 perforin-positive T lymphocytes could be detected, but they were in significant numbers in adult peripheral blood (P = .02). A substantial proportion of these cells (70% +/- 23%) lacked the CD28 T-cell coactivation Ag, and they were able to exert NK-like, major histocompatibility complex nonrestricted cytolytic activity. CD4+ and gamma delta-T cells expressing perforin were absent from CB, but low numbers of such cells were detected in adult peripheral blood (P = .0001). Therefore, the spontaneous cytolytic activity of CB lymphocytes appeared to be dependent on well-represented perforin-positive NK cells, which were shown to efficiently lyse NK-sensitive target cells.

[Protruding dermatofibrosarcoma. An unusual cutaneous tumor]. / Le dermatofibrosarcome protubérant. Une tumeur cutanée inhabituelle.

Local reoccurrence of protuberant dermatofibrosarcoma was seen in a female patient 3 years after exeresis. We reviewed the data in the literature on the physical examination, outcome, histology and therapeutic approach. The Darier and Ferrand dermatofibroma is a very unusual skin tumour which develops in the dermal layer. Diagnosis can only be confirmed by histologicaal examination of the specimen. Wide surgical exeresis is required to avoid local relapse. Despite the high risk of reoccurrence, the prognosis is excellent.

Perforin and granzyme B expression is associated with severe acute rejection. Evidence for in situ localization in alveolar lymphocytes of lung-transplanted patients.

To evaluate rejection episodes in lung-transplanted patients, we analyzed 31 bronchoalveolar lavage specimens for lymphocyte levels and lymphocyte expression of two intracytoplasmic activation markers, perforin, the pore-forming lytic protein, and granzyme B, a member of the serine esterase family. Using anti-human granzyme B and perforin mAbs, we show that their expression in alveolar lymphocytes is correlated with the severity of rejection as assessed by histological parameters and the patients' clinical status. The presence of these molecules may provide a prognostic parameter that will facilitate the patients' monitoring, particularly in cases with minimal acute lung rejection susceptible to rapid progression to severe rejection.

Granzyme B and perforin can be used as predictive markers of acute rejection in heart transplantation.

We have investigated perforin and granzyme B expression in graft-infiltrating lymphocytes of patients who underwent heart transplantation. Those proteins are commonly present in the cytoplasmic granules of cytotoxic T lymphocytes and are released upon effector-target cell interaction. From 28 patients 103 endomyocardial biopsies were obtained and examined by histology and immunocytochemical analysis using relevant monoclonal antibodies. We found that "high" biopsy histological grades were associated with perforin and granzyme B expression in graft-infiltrating lymphocytes of patients with acute severe rejection crisis. In contrast, these markers were not detected in patients without rejection or during graft stabilization. Interestingly, in patients with mild rejection and "low" histological grades, two groups could be distinguished with a differential expression of the two intracytoplasmic proteins. The presence of perforin and granzyme B-expressing cells was found to be predictive of rapid progression to severe rejection, so that this situation required additional treatment; in contrast, their absence seemed to correlate with a good graft outcome without additional treatment. Moreover, perforin and granzyme B expression seemed to be down-regulated by immunosuppressive drugs, which coincided with graft stabilization. In conclusion, our data suggest that detection of granzyme B and perforin in graft-infiltrating lymphocytes might be helpful for routinely monitoring heart transplant patients.

Dissociation of natural killer and lymphocyte-activated killer cell lytic activities in human CD3- large granular lymphocytes.

CD3- large granular lymphocytes (LGL) are known to display natural killer cell (NK) activity without prior sensitization or restriction by major histocompatibility antigens. Upon short-term exposure to interleukin-2, NK cells were shown to acquire lymphocyte-activated killer cell (LAK) activity. The aim of this study was to analyze the characteristics of these lytic activities. Our data indicated that both NK and LAK activities were Ca2+ dependent; however, they could be dissociated by a Ca2+ channel blocker or a Ca2+ channel competitor agent. Moreover, NK activity was associated with granule exocytosis of lytic proteins spontaneously present in CD3- LGL, the most likely candidate being the pore-forming protein perforin. By contrast, LAK activity was found to be dependent on de novo protein synthesis and distinct from granule exocytosis. Our results strongly suggest that NK and LAK activities could be defined as two distinct pathways involving different lytic mediators.

Perforin and granzyme B as markers for acute rejection in heart transplantation.

Histological analysis of endomyocardial biopsies (EMB) is regarded as the most satisfactory technique for monitoring crisis of rejection in heart transplanted patients. In this study, 42 biopsies from 14 patients who underwent heart transplantation were examined. Three patients did not present any rejection crisis at the date of the biopsy analysis, six were examined during an early rejection crisis (day 7-70 post-graft), and five were examined during a late rejection crisis (day 74-960 post-graft). Since granzyme B and perforin are proteins associated with cell lysis histological grading and cell phenotype analysis, in situ hybridization using granzyme B and perforin [35S]RNA probes was performed on 30 EMB to characterize the cytolytic activation of heart infiltrating cells. Our data suggest that granzyme B and perforin could be used as predictive markers for acute rejection in patients with early rejection crisis. Their detection might be an indication to administrate corticoids to resolve an acute rejection crisis. In contrast, their absence in patients with late rejection crisis appears as a good prognostic factor for the outcome of rejection and raises the question of the necessity to treat such patients with additional corticoid treatment.

Perforin and granzyme B: predictive markers for acute GVHD or cardiac rejection after bone marrow or heart transplantation.

Monitoring of human allografts requires to use histological, immunohistochemical and functional techniques to characterize graft infiltrating cells. Granzyme B and perforin gene expression is of major importance in functional studies. Those proteins are present in the cytoplasmic granules of cytotoxic T lymphocytes and are secreted during granule exocytosis at the effector/target cell interface. Gene expression of both proteins has been studied by in situ hybridization using specific riboprobes on serial sections of biopsies in two pathological models. Our results show that cells infiltrating early skin lesions of patients with acute GVHD after bone marrow graft are exclusively composed of T cells, among which some of them express granzyme B and perforin genes. Similarly the presence of granzyme B and perforine-expressing cells in endomyocardial biopsies of heart transplanted patients has been associated to early and severe crisis of rejection. In contrast, the absence of functional markers in lymphoid infiltrates was coinciding with less aggressive and late episodes of rejection. Taken together, our data indicate that granzyme B and perforin gene expression in skin infiltrating lymphocytes during GVH or within heart infiltrating cells during crisis of rejection are in favor of severe processes. The study has allowed to predict during heart transplantation the apparition of a rejection crisis and to show the necessity for treating the patient with immunsuppresive drugs. This is also the case for patients with GVHD at the time of the first skin rash.

Involvement of granzyme B and perforin gene expression in the lytic potential of human natural killer cells.

Natural killer (NK) cells (CD3-) or large granular lymphocytes (LGL) spontaneously kill K562 targets but are unable to kill Daudi cells in the absence of IL-2 stimulation. IL-4 is reported to prevent or inhibit the IL-2-driven lymphokine-activated killer (LAK) generation in NK cells. Therefore, we wished to determine whether the antagonistic effect of IL-4 on IL-2-induced LAK activity might regulate the expression of genes encoding proteins involved in lysis, such as perforin, the pore-forming protein, or which are associated with lysis, such as granzymes A and B. By using in situ hybridization, we showed that, in addition to inducing LAK activity, IL-2 stimulation increased the amount of perforin and granzyme B mRNA at the single-cell level in 40 to 100% of the total CD3- LGL cell population. In addition, our results indicated that the stimulatory effect of IL-2 can be downregulated by IL-4 for both LAK activity and granzyme B and perforin gene expression. Here again, a decrease in the amount of specific mRNA per cell was noted. These findings suggest that modulation of the lytic machinery via lymphokines might be associated with regulation of the lytic potential of NK cells.