Deana D’Souza scite author profile

Damage to neonatal and adult tissues always incites an influx of inflammatory neutrophils and macrophages. Besides clearing the wound of invading microbes, these cells are believed to be crucial coordinators of the repair process, acting both as professional phagocytes to clear wound debris and as a major source of wound growth factor signals. Here we report wound healing studies in the PU.1 null mouse, which is genetically incapable of raising the standard inflammatory response because it lacks macrophages and functioning neutrophils. Contrary to dogma, we show that these "macrophageless" mice are able to repair skin wounds with similar time course to wild-type siblings, and that repair appears scar-free as in the embryo, which also heals wounds without raising an inflammatory response. The growth factor and cytokine profile at the wound site is changed, cell death is reduced, and dying cells are instead engulfed by stand-in phagocytic fibroblasts. We also show that hyperinnervation of the wound site, previously believed to be a consequence of inflammation, is present in the PU.1 null wound, too.

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Dorsal versus ventral scales and the dorsoventral patterning of chick foot epidermis

Prin

Logan

D’Souza

et al. 2004

Developmental Dynamics

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The dorsal and ventral scales of the chick foot can be distinguished morphologically and molecularly: the dorsal oblong overlapping scuta expressing both ␣ and ␤ keratins, and the ventral roundish nonprotruding reticula expressing only ␣ keratins. The question arises how En-1 and Lmx1, whose role in dorsoventral limb patterning has been well established, can affect skin morphogenesis, which occurs 8 to 12 days later. Forced expression of En-1 or of Lmx1 in the hindlimb have, respectively, as expected, a ventralizing or a dorsalizing effect on skin, leading to the formation of either reticula-type or scuta-type scales on both faces. In both cases, however, the scales are abnormal and even glabrous skin without any scales at all may form. The normal inductive interactions between dermis and epidermis are disturbed after En-1 or Lmx1 misexpression. Effectively, while Lmx1 endows the dermal precursors of the ventral region with scuta inducing ability, En-1 blocks the competence of the dorsal epidermis to build scuta.

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Involvement of long- and short-range signalling during early tendon development

D’Souza

Patel

1999

Anatomy and Embryology

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Tendons connect muscle to skeletal elements. Although tendons have been shown to originate from the lateral plate mesoderm, very little is known at the molecular level about how they are formed. We have found that two genes, Follistatin and Eph-A4, are expressed in regions associated with tendon formation in developing chick limbs. Follistatin is expressed near the tip of the digits and subsequently around the tendon, whereas Eph A4 transcripts were localized in a slightly more proximal region and later in the body of the tendon. Previous work has demonstrated that application of TGFbeta1 or TGFbeta2 to inter-digital regions or the removal of ectoderm in the foot plate induces ectopic cartilage formation, while removal of ectoderm or application of FGF to tips of developing digits leads to truncation. Here we show that TGFbeta1 or removal of ectoderm is also able to induce the expression of both Eph-A4 and Follistatin and that manipulations that cause truncations affect these genes. Thus cartilage and tendon development appear to be coordinated. Ectopic application of recombinant human Follistatin, an antgaonist of certain TGFbeta super-family proteins including Activin and Bmp-4, results in the loss of tendon, implicating signalling by TGFbeta super-family in the development of tendon during chick embryogenesis. Signalling by TGFbeta family members, antagonised by Noggin is known to regulate skeletal development. Thus we suggest that parallel pathways govern both skeletal and tendon patterning.

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A polydactylous human foot with ‘double‐dorsal’ toes

D’Souza

Tickle

1998

Journal of Anatomy

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A human polydactylous left foot with 9 toes, amputated from an 11-mo-old child, was examined by -ray and magnetic resonance imaging and by gross dissection to identify the digits. The normal sequence of toes from medial to lateral is 1, 2, 3, 4, 5. Examination of the morphology of tendons and muscles suggested the toe sequence was 1, 2, 3\4, ?,5, 2, 3\4, 3\4, 5. The 2 toes in the sequence that are underlined were displaced dorsally and were found to have 2 extensor tendons, no flexor tendons and nails that were conical and situated at their tips. These toes resembled those described as ' double-dorsal ' and which develop in paws of mice in which a gene normally expressed ventrally is functionally inactivated (Loomis et al. 1996). Specification of toe formation occurs in leg buds early in embryonic development and later there is rotation of the limb so that the anterior (rostral) part comes to lie medially, i.e. the hallux which was anterior (rostral) now is on the inner (medial) side of the foot. A disruption in the patterning of this foot in both anteroposterior (rostral-caudal) and dorsoventral axes during development could be responsible.

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Deana D’Souza

Wound Healing in the PU.1 Null Mouse—Tissue Repair Is Not Dependent on Inflammatory Cells

Dorsal versus ventral scales and the dorsoventral patterning of chick foot epidermis

Involvement of long- and short-range signalling during early tendon development

A polydactylous human foot with ‘double‐dorsal’ toes

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