Baerveldt shunts in the treatment of glaucoma secondary to anterior uveal melanoma and proton beam radiotherapy.

INTRODUCTION: Melanoma of the iris and ciliary body may be associated with secondary glaucoma. Treatment with proton beam radiotherapy (PBRT) to the anterior segment can also elevate intraocular pressure (IOP), resulting in uncontrolled glaucoma, often requiring enucleation. This is the first prospective study of Baerveldt aqueous shunts in irradiated eyes with anterior uveal melanoma (AUM; affecting the iris or ciliary body). METHODS: Thirty-one eyes with uncontrolled IOP following anterior segment PBRT treatment for AUM were prospectively recruited to undergo Baerveldt shunt implantation. Postoperative examinations were performed on day 1; weeks 1, 3, 6, 9; months 3, 6, 9, 12 and annually thereafter. Surgical success was defined as IOP 21 mm Hg or less and 20% reduction from baseline. All complications were recorded. RESULTS: Mean follow-up was 15.7 months (SD ±8.3 months). Mean interval from irradiation to shunt implantation was 2.5 years. Mean preoperative IOP was 31.0 (±10.3) mm Hg; mean IOP at last visit was 15.0 (±5.0) mm Hg; mean pre-operative glaucoma medications were 3.3 (±1.3); postoperatively 0.7 (±1.3) glaucoma medications. Surgical success rate was 86% using glaucoma medications. Four eyes had minor postoperative complications, none of which were sight threatening. There were no local tumour recurrences or systemic metastases. There were no enucleations caused by ocular hypertension. CONCLUSIONS: Baerveldt shunts were effective in lowering IOP, with few complications, in eyes treated with total anterior segment irradiation for AUM.

Cell populations in lesions of cutaneous leishmaniasis of leishmania (L.) amazonensis- infected rhesus macaques, Macaca mulatta

The cellular nature of the infiltrate in cutaneous lesion of rhesus monkeys experimentally infected with Leishmania (L.) amazonensis was characterized by immunohistochemistry. Skin biopsies from infected animals with active or healing lesions were compared to non-infected controls (three of each type) to quantitate inflammatory cell types. Inflammatory cells (composed of a mixture of T lymphocyte subpopulations, macrophages and a small number of natural killer cells and granulocytes) were more numerous in active lesions than in healing ones. T-cells accounted for 44.7 ± 13.1% of the infiltrate in active lesions (versus CD2+= 40.3 ± 5.7% in healing lesions) and T-cell ratios favor CD8+ cells in both lesion types. The percentage of cells expressing class II antigen (HLA-DR+) in active lesions (95 ± 7.1%) was significantly higher (P < 0.005) from the healing lesions (42.7 ± 12.7%). Moreover, the expression of the activation molecules CD25 (@ 16%), the receptor for interleukin-2, suggests that many T cells are primed and proliferating in active lesions. Distinct histopathological patterns were observed in lesions at biopsy, but healing lesions contained more organized epithelioid granulomas and activated macrophages, followed by fibrotic substitution. The progression and resolution of skin lesions appears to be very similar to that observed in humans, confirming the potential for this to be used as a viable model to study the immune response in human cutaneous leishmaniasis.

Action of pentoxifylline on experimental cutaneous leishmaniasis due to Leishmania (Leishmania) amazonensis

In the animal model of leishmaniasis caused by Leishmania (Leishmania) amazonensis there is a complex mechanism of the host-parasite interaction. The present study was performed to interfere with the inflammatory reaction to the parasites, through immune modulation. Female C5BL/6 isogenic mice were used, some of which were inoculated on the right ear and others on the right footpad with 3.10(6) stationary phase promastigotes of the MHOM/BR/PH8 strain of L. (L.) amazonensis, and were allocated in three groups: the first received pentoxifylline 8mg/kg every 12 h, since the first day; the second one received the same dose since the 40th day of infection and a control group that did not receive any treatment. All the ears excised were analyzed to determine the variation in weight between both ears and for histopathological analyses. A quantification of the parasites was done using the limiting dilution assay. A significant reduction of the number of parasites, was observed among the animals treated which had an accordingly significant reduction on the weight of the ears. Pentoxifylline reduced the macrophages propensity to vacuolation and induced a more effective destruction of the parasites by these cells. Moreover, the group that began the treatment later did not show the same effectiveness.

Cutaneous leishmaniasis caused by members of Leishmania braziliensis complex in Nayarit, State of Mexico

An epidemiological study was carried out in the northern Mexican state, Nayarit. Fourteen patients with possible cutaneous leishmaniasis skin lesions gave positive Montenegro skin tests. Biopsies were taken from the skin ulcer and analyzed by polymerase chain reaction (PCR) with specific primers for the Leishmania mexicana complex; however all biopsies were not amplified. PCR carried out with specific primers for the L. braziliensis complex resulted in the amplification of all patient DNA. DNA from 12 out of 14 biopsies gave positive amplification with primers species specific for L. (Viannia) braziliensis and hybridized with a species specific L. (V.) braziliensis probe. These results demonstrate the presence in Nayarit of at least two members of the L. braziliensis complex. Most of the cutaneous lesions were caused by L. (V.) braziliensis and two by another species belonging to the L. braziliensis complex. As far as we are aware, this is the first report of L. (V.) braziliensis in Nayarit. The main risk factor associated with the contraction of this disease in Nayarit is attributed to working on coffee plantations.

Immunochemotherapy in American cutaneous leishmaniasis: immunological aspects before and after treatment

In this study, we evaluated the immune response of patients suffering from cutaneous leishmaniasis treated with two distinct protocols. One group was treated with conventional chemotherapy using pentavalent antimonium salts and the other with immunochemotherapy where a vaccine against cutaneous leishmaniasis was combined with the antimonium salt. Our results show that, although no differences were observed in the necessary time for complete healing of the lesions between the two treatments, peripheral blood mononuclear cells from patients treated by chemotherapy showed smaller lymphoproliferative responses at the end of the treatment than those from patients in the immunochemotherapy group. Furthermore, IFN-gamma production was also different between the two groups. While cells from patients in the chemotherapy group produced more IFN-gamma at the end of treatment, a significant decrease in this cytokine production was associated with healing in the immunochemotherapy group. In addition, IL-10 production was also less intense in this latter group. Finally, an increase in CD8+ -IFN-gamma producing cells was detected in the chemotherapy group. Together these results point to an alternative treatment protocol where healing can be induced with a decreased production of a potentially toxic cytokine.

Domestic and peridomestic transmission of American cutaneous leishmaniasis: changing epidemiological patterns present new control opportunities

Predictions that deforestation would reduce American cutaneous leishmaniasis incidence have proved incorrect. Presentations at a recent international workshop, instead, demonstrated frequent domestication of transmission throughout Latin America. While posing new threats, this process also increases the effectiveness of vector control in and around houses. New approaches for sand fly control and effective targeting of resources are reviewed.

Clinical picture of cutaneous leishmaniases due to Leishmania (Leishmania) mexicana in the Yucatan peninsula, Mexico

Localized cutaneous leishmaniasis (LCL), known as "chiclero's ulcer" in southeast Mexico, was described by Seidelin in 1912. Since then, the sylvatic region of the Yucatan peninsula has been identified as an endemic focus of LCL. The purpose of the present work was to describe the clinical picture of LCL caused by Leishmania (Leishmania) mexicana in the Yucatan peninsula. A total of 136 cases of LCL, based on isolation and characterization of L. (L.) mexicana by isoenzymes and/or monoclonal antibodies, were selected. Some variability of clinical features regarding number, type, size, form, location and time of evolution of the lesions was observed. The most frequently observed presentation was a single, ulcerated, rounded small lesion, located on the ear, with an evolution time of less than three months, with neither cutaneous metastases nor lymphatic nor mucosal involvement. This picture corresponds to previous studies carried out in the same endemic area where an organism of the L. mexicana complex has been incriminated as a major aetiological agent of classical "chiclero's ulcer", confirming that in the Yucatan peninsula LCL due to L. (L.) mexicana when located on the pinna of the ear is a remarkable characteristic.

Chemotherapy induces tumor metastasis and dormancy

Chemotherapy is widely used as a systemic treatment modality in cancer patients and provides survival benefits for a significant fraction of treated patients H However, some patients suffer from cancer relapse and rapidly progress to metastasis, suggesting that following chemotherapy their residual tumor developed a more aggressive phenotype 4 5. Although some molecular mechanisms involved in chemo-resistance and chemotherapy-induced metastatic relapse have been reported, more investigations and understanding of these processes are necessary before any translation into the clinic might be considered. By using the syngeneic metastatic 4T1 murine breast cancer model, we observed that chemotherapy treatment and selection of chemotherapy-resistant cancer cells in vitro can induces two opposite phenotypes: a dormant one and a relapsing-metastatic one. Previous studies in our laboratory demonstrated that irradiation of mammary gland promotes tumor metastasis, at least in part, by inducing the recruitment of CD11b+ cells to both the primary tumor and the lungs at a pre-metastatic stage. In this study we found that CD11b+ cells may also play important roles in chemotherapy-induced tumor metastasis and dormancy in vivo. Tumor cells expressing the stem cell marker Sca-1 were enriched by chemotherapy treatment in vitro, as well as in tumor metastasis in vivo. Furthermore, tumor-derived CD11b+ cells were capable to maintain and expand this population in vitro. These results suggest that the expansion of a tumor cell population with stem cell features might be a mechanism by which chemotherapy induces metastasis. On the other hand, the same drug treatment in vitro generated resistant cells with a dormant phenotype. Dormant tumor cells were able to induce an in vivo immune- inflammatory response in the draining lymph node, which is normally absent due to the immunosuppressive effects of tumor-recruited myeloid derived- suppressor cells (MDSCs). Genome-wide gene expression analysis revealed the enrichment of invasion and metastasis-related genes in the relapsing metastatic tumor cells and immune response-related genes in the dormant tumor cells. Interestingly, CD11b+ cells derived from the microenvironment of growing-metastatic tumors, but not CD11b+ cells derived from the spleen of tumor-free mice, were able to instigate outgrowth of dormant tumor cells in vivo. Also, dormant cells formed growing and metastatic tumors when injected into immune-compromised NGS mice. These results point to a role of chemotherapy in enabling treated tumor cells to acquire immune response-inducing capabilities, while impairing the recruitment of CD11b+ cells and their differentiation into an immune-suppressive cell. The molecular mechanisms underneath these effects are being further investigated. In conclusion, results obtained in this model indicate that chemotherapy can induce a dormant phenotype in cancer cells and that this state of dormancy can be broken by MDSCs educated by relapsing tumors. Understanding the mechanism beyond these effects, in particular unraveling the genetic or epigenetic determinants of dormancy vs relapse, might open the way to therapies aimed and maintaining residual cells escaping chemotherapy in a state of sustained dormancy. - La chimiothérapie est un traitement systémique largement utilisé chez les patients cancéreux qui donne un avantage de survie significatif pour une bonne partie de patients traités (1-3). Cependant, certains patients souffrent d'une rechute et progressent ensuite vers la métastase. Ceci suggère que leur tumeur résiduelle a développé un phénotype agressif suite à la chimiothérapie (4-5). Bien que certains mécanismes moléculaires impliqués dans la chimiorésistance et la rechute métastatique ont été identifiés, d'avantage d'études sont nécessaires afin de mieux comprendre ce phénomène et de développer des nouvelles thérapies cliniques. En utilisant un modèle syngénique de cancer du sein métastatique chez la sourie (4T1), nous avons observé que la sélection des cellules cancéreuses résistantes à la chimiothérapie in vitro peut induire deux phénotypes opposés: un phénotype de dormance et un phénotype de progression métastatique. Une étude précédente issue de notre laboratoire a démontré que l'irradiation de la glande mammaire favorise la métastase de tumeurs recourants suite au recrutement de cellules CD11b+ dans la tumeur primaire et dans les poumons pré-métastatiques. Dans notre étude nous avons constaté que les cellules CD11b+ peuvent également jouer un rôle important dans la formation de métastases induites par la chimiothérapie ainsi que dans le maintien de la dormance in vivo. Nous avons également observé un enrichissement de cellules tumorales exprimant le marqueur de cellule souche Sca-1 parmi les cellules tumorales résistantes à la chimiothérapie et dans les cellules qui on formé des métastases in vivo. Des cellules CD11b+ dérivées du microenvironnement tumorale favorisent l'expansion de la population de cellules tumorales Sca-1+ in vitro. Ces résultats suggèrent que l'expansion d'une population de cellules tumorales avec des caractéristiques de cellules souches pourrait constituer un mécanisme par lequel la chimiothérapie induit des métastases dans des tumeurs récurrentes. D'autre part le même traitement de chimiothérapie peut générer des cellules résistantes avec un phénotype dormant. Les expériences in vivo indiquent que les cellules tumorales dormantes induisent une réponse immunitaire inflammatoire dans le ganglion lymphatique de drainage, qui est normalement réprimée par des cellules myéloïdes suppressives de tumeur (MDSC). Une analyse d'expression de gènes a révélé l'enrichissement de gènes liés à l'invasion et à la métastase dans les cellules tumorales récurrentes et des gènes liés à la réponse immunitaire dans les cellules tumorales dormantes. Les cellules CD11b+ issues du microenvironnement des tumeurs récurrents ont incité la croissance des cellules tumorales dormantes in vivo, tandis que les cellules CD11b+ dérivées de la rate de souris non porteuses de tumeur ne l'étaient pas. Les mécanismes moléculaires sous-jacents restent à découvrir. En conclusion, les résultats obtenus dans ce modèle indiquent que la chimiothérapie pourrait favoriser non seulement l'induction d'une dormance cellulaire, mais également que les cellules dormantes seraient adroits de induire une réponse immunitaire capable les maintenir dans un état de dormance prolongé. Un déséquilibre dans cette réponse immunitaire pourrait des lors briser cet état de dormance et induire une progression tumorale. Comprendre les mécanismes responsables de ces effets, en particulier l'identification des déterminants génétiques ou épigénétiques liés à la dormance vs la rechute, pourraient ouvrir la voie à des nouvelles thérapies visant le maintien d'un état de dormance permanente des cellules résiduelles après chimiothérapie.

Ex vivo detectable activation of Melan-A-specific T cells correlating with inflammatory skin reactions in melanoma patients vaccinated with peptides in IFA.

The purpose of this study was to test melanoma vaccines consisting of peptides and immunological adjuvants for optimal immunogenicity and to evaluate laboratory immune monitoring for in vivo relevance. Forty-nine HLA-A2 positive patients with Melan-A positive melanoma were repeatedly vaccinated with Melan-A peptide, with or without immune adjuvant AS02B (QS21 and MPL) or IFA. Peptide-specific CD8 T cells in PBLs were analyzed ex vivo using fluorescent HLA-A2/Melan-A multimers and IFN-gamma ELISPOT assays. The vaccines were well tolerated. In vivo expansion of Melan-A-specific CD8 T cells was observed in 13 patients (1/12 after vaccination with peptide in AS02B and 12/17 after vaccination with peptide in IFA). The T cells produced IFN-gamma and downregulated CD45RA and CD28. T-cell responses correlated with inflammatory skin reactions at vaccine injection sites (P < 0.001) and with DTH reaction to Melan-A peptide (P < 0.01). Twenty-six of 32 evaluable patients showed progressive disease, whereas 4 patients had stable disease. The two patients with the strongest Melan-A-specific T-cell responses experienced regression of metastases in skin, lymph nodes, and lung. We conclude that repeated vaccination with Melan-A peptide in IFA frequently leads to sustained responses of specific CD8 T cells that are detectable ex vivo and correlate with inflammatory skin reactions.

Plasmacytoid dendritic cells in melanoma: can we revert bad into good?

Tumor-infiltrating plasmacytoid dendritic cells (pDCs) promote an immunosuppressive milieu that drives tumor growth in melanoma. This phenomenon typically results from the lack of appropriate pDC activation signals in the tumor microenvironment, but it is also actively controlled by tumor cells, which have evolved strategies to inhibit type I IFN production by pDCs. In this issue, Camisaschi et al. identify a new mechanism in which tumors avoid type I IFN production by triggering LAG-3-dependent activation of pDCs. Combination therapies that restore pDC functionality and trigger innate activation to produce type I IFN should be envisaged to induce effective antitumor immunity.

Distribution of sand flies (Diptera: Psychodidae) at different altitudes in an endemic region of American cutaneous leishmaniasis in the State of Espírito Santo, Brazil

The involvement of different sand fly species in the transmission of American cutaneous leishmaniasis (ACL) at different altitudes was evaluated in the municipality of Afonso Cláudio in the State of Espírito Santo, Brazil, from November 1995 to February 1997. CDC light traps and Shannon traps baited with human volunteers were hung simultaneously at three altitudes of a river valley: (a) 650-750 m in an area of active ACL transmission; (b) 750-850 m in a transitional area; and (c) 850-950 m in an area where no ACL transmission occurred. A total of 13,363 specimens belonging to 28 species was collected. The five most abundant man-biting species were Lutzomyia intermedia, which constituted 24.3% of the total, Lu. migonei (22.3%), Lu. whitmani (15.4%), Lu. fischeri (14.9%) and Lu. monticola (5.8%). Analysis of the distribution of these species at the three altitudes provided evidence that Lu. fischeri and Lu. monticola were not involved in ACL transmission, whereas Lu. migonei and Lu. whitmani might act as secondary vectors of Leishmania (Viannia) braziliensis and Lu. intermedia was probably the principal vector of the parasite. These results reinforce those published in the existing literature, which indicate that Lu. intermedia is the main vector of Le. (V.) braziliensis in Southeast Brazil, while Lu. migonei and Lu. whitmani are of secondary importance.

HLA photoaffinity labeling reveals overlapping binding of homologous melanoma-associated gene peptides by HLA-A1, HLA-A29, and HLA-B44.

Melanoma-associated genes (MAGEs) encode tumor-specific antigens that can be recognized by CD8+ cytotoxic T lymphocytes. To investigate the interaction of the HLA-A1-restricted MAGE-1 peptide 161-169 (EADPT-GHSY) with HLA class I molecules, photoreactive derivatives were prepared by single amino acid substitution with N beta-[iodo-4-azidosalicyloyl]-L-2,3-diaminopropionic acid. These derivatives were tested for their ability to bind to, and to photoaffinity-label, HLA-A1 on C1R.A1 cells. Only the derivatives containing the photoreactive amino acid in position 1 or 7 fulfilled both criteria. Testing the former derivative on 14 lymphoid cell lines expressing over 44 different HLA class I molecules indicated that it efficiently photoaffinity-labeled not only HLA-A1, but possibility also HLA-A29 and HLA-B44. MAGE peptide binding by HLA-A29 and HLA-B44 was confirmed by photoaffinity labeling with photoreactive MAGE-3 peptide derivatives on C1R.A29 and C1R.B44 cells, respectively. The different photoaffinity labeling systems were used to access the ability of the homologous peptides derived from MAGE-1, -2, -3, -4a, -4b, -6, and -12 to bind to HLA-A1, HLA-A29, and HLA-B44. All but the MAGE-2 and MAGE-12 nonapeptides efficiently inhibited photoaffinity labeling of HLA-A1, which is in agreement with the known HLA-A1 peptide-binding motif (acidic residue in P3 and C-terminal tyrosine). In contrast, photoaffinity labeling of HLA-A29 was efficiently inhibited by these as well as by the MAGE-3 and MAGE-6 nonapeptides. Finally, the HLA-B44 photoaffinity labeling, unlike the HLA-A1 and HLA-A29 labeling, was inhibited more efficiently by the corresponding MAGE decapeptides, which is consistent with the reported HLA-B44 peptide-binding motif (glutamic acid in P2, and C-terminal tyrosine or phenylalanine). The overlapping binding of homologous MAGE peptides by HLA-A1, A29, and B44 is based on different binding principles and may have implications for immunotherapy of MAGE-positive tumors.