ABSTRACT
Resumen Los síndromes esclerodermiformes suelen imitar muy bien una esclerosis sistémica progresiva, y es la presencia de ampollas cutáneas en áreas fotoexpuestas con hiperpigmentación los datos diferenciales para diagnosticar una porfiria. Presentamos el caso de un varón de 48 años con fotosensibilidad, fragilidad capilar, ampollas cutáneas e hiperpigmentación asociado a esclerodactilia, con pérdida cicatrizal distal de tejido en los dedos de las manos, que simuló a la perfección una esclerosis sistémica progresiva. La analítica mostró negatividad para anticuerpos antinucleares, antitopoisomerasa y anticentrómero, con valores altos de uroporfirinas en orina. El tratamiento con flebotomías e hidroxicloquina mejoró la fotosensibilidad y la fragilidad cutánea.
Abstract Sclerodermiform syndromes usually mimic progressive systemic sclerosis very well, with the presence of skin blisters in photo-exposed areas with hyperpigmentation being the differential data for diagnosing porphyria. We present the case of a 48-year old man with photosensitivity, capillary fragility, skin blisters, and hyperpigmentation associated with sclerodactyly with distal scar tissue loss on the fingers, which perfectly simulated progressive systemic sclerosis. The analysis showed negativity for antinuclear, antitopoisomerase and anticentromere antibodies, with high levels of uroporphyrins in urine. Phlebotomy and hydroxycloquine treatment improved photosensitivity and skin fragility.
Subject(s)
Porphyria Cutanea Tarda , Scleroderma, Systemic , UroporphyrinsABSTRACT
Congenital erythropoietic porphyria (CEP) is a rare hereditary autosomal recessive disease which has never been reported in Zebu cattle. A 3-day-old Gir calf showed teeth discoloration, fever, dehydration, and dyspnea. The main gross findings were pink-colored teeth, red-brown periosteum and bone marrow, and a fluorescent bright pink coloration of the bone marrow and articular surfaces under ultraviolet light. Aggregates of periodic acid-Schiff (PAS)-stained porphyrin pigments were evident in the lungs, kidneys, and the liver. An intron 8 single-nucleotide polymorphism (SNP) in both the Gir calf and control animals, along with the absence of the uroporphyrin III synthetase (UROS) gene mutation, was observed. Most SNPs were located in the intron regions of the UROS gene without relevance for CEP. A continuous loss of genetic variability and an increase in inbreeding in some herds may be related to CEP in Gir cattle, one of the most prominent Zebu breeds worldwide. In summary, this study describes a presumptive case of CEP in a Gir calf based on clinical and pathological findings. A definitive diagnosis would require the measurement of porphyrin levels in blood, urine, or tissues or the identification of UROS gene defects.
ABSTRACT
Background: Photosensitizers (PS), like porphyrins and phthalocyanines (PC) are excitable by light to generate cytotoxic singlet oxygen and other reactive oxygen species in the presence of atmospheric O2. Photodynamic inactivation of Leishmania by this means renders them non-viable, but preserves their effective use as vaccines. Leishmania can be photo-inactivated after PS-sensitization by loading via their endocytic uptake of PC or endogenous induction of transgenic mutants with delta-aminolevulinate (ALA) to accumulate cytosolic uroporphyrin I (URO). Here, PS-sensitization and photo-inactivation of Leishmaniaamazonensis was further examined in vitro and in vivo for vaccination against cutaneous leishmaniasis (CL). Methods and Results:Leishmania amazonensis promastigotes were photodynamically inactivated in vitro by PC-loading followed by exposure to red light (1-2 J/cm2) or ALA-induction of uroporphyrinogenic transfectants to accumulate cytosolic URO followed by longwave UV exposure. When applied individually, both strategies of photodynamic inactivation were found to significantly, albeit incompletely abolish the MTT reduction activities of the promastigotes, their uptake by mouse bone marrow-derived macrophages in vitro and their infectivity to mouse ear dermis in vivo. Inactivation of Leishmania to completion by using a combination of both strategies was thus used for the sake of safety as whole-cell vaccines for immunization of BALB/c mice. Different cutaneous sites were assessed for the efficacy of such photodynamic vaccination in vivo. Each site was inoculated first with in vitro doubly PS-sensitized promastigotes and then spot-illuminated with white light (50 J/cm2) for their photo-inactivation in situ. Only in ear dermis parasites were photo-inactivated beyond detection. Mice were thus immunized once in the ear and challenged 3 weeks later at the tail base with virulent L. amazonensis. Prophylaxis was noted in mice photodynamically vaccinated with doubly photo-inactivated parasites, as indicated by a significant delay in the onset of lesion development and a substantial decrease in the parasite loads. Conclusion: Leishmania doubly PS-sensitized and in situ photo-inactivated as described proved to be safe and effective when used for one-time immunization of ear dermis, as indicated by its significant protection of the inherently very susceptible BALB/c mice against CL.