J. H. Pavlovitch scite author profile

The retrovirus LP-BM5 murine leukemia virus induces murine AIDS in C57BL/6 mice that has many similarities with human AIDS; Plasmodium berghei ANKA causes experimental cerebral malaria in the same strain of mice. The outcome of malaria infection was studied in mice concurrently infected with the two pathogens. The retrovirus significantly reduced the gravity of the neurological manifestations associated with Plasmodium berghei ANKA infection. The protection against experimental cerebral malaria induced by murine AIDS increased with duration of viral infection and, hence, with the severity of the immunodeficiency. Interleukin 10, principally from splenic T cells, was shown to play a crucial role in this protection.

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Characteristics of homogeneously small keratinocytes from newborn rat skin: possible epidermal stem cells

Pavlovitch

Rizk-Rabin

Jaffray

et al. 1991

American Journal of Physiology-Cell Physiology

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The aims of the present study were to characterize the phenotype, growth kinetics, and proliferative activation in culture of a population of poorly differentiated homogeneously small (HS) keratinocytes. These slow-cycling cells were separated by unit gravity sedimentation from a population of actively proliferating basal keratinocytes in newborn rat skin. This population (approximately 1% of the total basal keratinocytes) consisted of extremely small cells with little cytoplasm or RNA. Their positive KL4 staining demonstrates that they were keratinocytes. HS keratinocytes did not, however, contain epidermal calcium binding protein. Acridine orange, bivariate Hoechst, and ethidium bromide flow cytometry of in vitro bromodeoxyuridine-labeled cells as well as Ki67 staining showed that HS keratinocytes were in the G0 stage of the cell cycle and did not actively proliferate in vivo. [3H]thymidine label-retaining cells were found only in the HS cell population, showing that HS cells may originate from a central position in the epidermal proliferative unit. Growth of HS cells in vitro was characterized by a delayed but progressive increase in RNA before entry into the cell cycle. The clonogenic efficiency of HS cells in primary culture was much less than that of larger cells. Subclones of HS cell colonies exceeded primary colonies in their cloning efficiency and proliferative potential, suggesting that HS cells, although normally prevented from dividing, retain a high self-renewal capacity. They also maintain the ability to differentiate. The results are consistent with the concept that HS cell population may represent the epidermal-specific progenitor cells which act as stem cells in this tissue.

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Isolation and characterization of a rat skin parvalbumin-like calcium-binding protein

Rinaldi¹,

Haiech²,

Pavlovitch³

et al. 1982

Biochemistry

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Cell subpopulations within proliferative and differentiating compartments of epidermis

Pavlovitch

Rizk-Rabin

et al. 1989

American Journal of Physiology-Cell Physiology

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The heterogeneous population of newborn rat keratinocytes was separated into different subgroups according to their cell size. The relation between cell size, position in the cell cycle, RNA content, and proliferative potential in culture was examined. A reserve stem cell population of Go/G1 cells, low in RNA, giving rise to colonies of undifferentiated phenotype in cell culture, has been separated from more differentiated transit basal cells. In the fractions of the larger cells, several subgroups, probably corresponding to different stages of differentiation, were identified: G2M cells with low RNA content, large S-phase cells rich in RNA, and small Go/G1 cells low in RNA. The clonogenic cells from these fractions have limited growth potential and give rise to moderately or terminally differentiated colonies. The selective sorting of stem cell populations may be useful for elucidating the mechanism of carcinogenesis in epidermis and other proliferative tissues. Analysis of the relative proportions of cell subpopulations represents a novel approach leading to the refinement of the concepts of epidermal structure in physiological and pathological states. It also could, by extension, shed new light on the behavior of other proliferative tissues.

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Skin Calcium Binding Protein is Localized in the Cytoplasm of the Basal Layer of the Epidermis

Saurat

Didierjean

Pavlovitch

et al. 1981

Journal of Investigative Dermatology

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Using a serum raised in rabbits against a calcium binding protein extracted from rat skin, the cutaneous localization of this protein was studied by indirect immunofluorescence. The skin calcium binding immunoreactivity was found in the epidermis but not in the dermis; it was localized in the cytoplasm of the basal cell layer of both skin and malpighian mucosa. There was not species specificity; this allowed the tracing of the protein in human epidermis as well where it was also expressed only in the basal cells. This is the first demonstration of the unique localization of a specific protein within the cytoplasm of the basal cell layer of the epidermis. This localization may help to elucidate the physiological role of this protein.

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J. H. Pavlovitch

Murine AIDS protects mice against experimental cerebral malaria: down-regulation by interleukin 10 of a T-helper type 1 CD4+ cell-mediated pathology.

Characteristics of homogeneously small keratinocytes from newborn rat skin: possible epidermal stem cells

Isolation and characterization of a rat skin parvalbumin-like calcium-binding protein

Cell subpopulations within proliferative and differentiating compartments of epidermis

Skin Calcium Binding Protein is Localized in the Cytoplasm of the Basal Layer of the Epidermis

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